motorola semiconductor technical data motorola tvs/zener device data 6-43 13 watt do-41 surmetic 30 data sheet 1 to 3 watt do-41 surmetic 30 zener voltage regulator diodes general data applicable to all series in this group 1 to 3 watt surmetic 30 silicon zener diodes . . . a complete series of 1 to 3 watt zener diodes with limits and operating characteristics that reflect the superior capabilities of silicon-oxide-passivated junctions. all this in an axial-lead, transfer-molded plastic package offering protection in all common environmen- tal conditions. specification features: ? surge rating of 98 watts @ 1 ms ? maximum limits guaranteed on up to six electrical parameters ? package no larger than the conventional 1 watt package mechanical characteristics: case: void-free, transfer-molded, thermosetting plastic finish: all external surfaces are corrosion resistant and leads are readily solderable polarity: cathode indicated by color band. when operated in zener mode, cathode will be positive with respect to anode mounting position: any weight: 0.4 gram (approx) wafer fab location: phoenix, arizona assembly/test location: seoul, korea maximum ratings rating symbol value unit dc power dissipation @ t l = 75 c lead length = 3/8 derate above 75 c p d 3 24 watts mw/ c dc power dissipation @ t a = 50 c derate above 50 c p d 1 6.67 watt mw/ c operating and storage junction temperature range t j , t stg 65 to +200 c general data case 59-03 do-41 plastic 13 watt do-41 surmetic 30 1 to 3 watt zener regulator diodes 3.3400 volts figure 1. power temperature derating curve t l , lead temperature ( c) p , maximum dissip ation (w atts) d 0 20 40 60 200 80 100 120 140 160 180 0 1 2 3 4 5 l = 1/8 l = 3/8 l = 1 l = lead length to heat sink
general data e 1-3 watt do-41 surmetic 30 motorola tvs/zener device data 6-44 13 watt do-41 surmetic 30 data sheet t, time (seconds) 0.0001 0.0002 0.0005 0.001 0.002 0.005 0.01 0.02 0.05 0.1 0.2 0.5 1 2 5 10 0.3 0.5 0.7 1 2 3 5 7 10 20 30 d =0.5 0.2 0.1 0.05 0.01 d = 0 duty cycle, d =t 1 /t 2 q jl (t, d) transient thermal resist ance junction-t o-lead ( c/w) p pk t 1 note: below 0.1 second, thermal response curve is applicable to any lead length (l). single pulse d t jl = q jl (t)p pk repetitive pulses d t jl = q jl (t,d)p pk t 2 0.02 10 20 30 50 100 200 300 500 1k 0.1 0.2 0.3 0.5 1 2 3 5 10 20 30 50 100 pw, pulse width (ms) p , peak surge power (w atts) pk 1 2 5 10 20 50 100 200 400 1000 0.0003 0.0005 0.001 0.002 0.005 0.01 0.02 0.05 0.1 0.2 0.5 1 2 3 t a = 125 c t a = 125 c nominal v z (volts) as specified in elec. char. table figure 2. typical thermal response l, lead length = 3/8 inch figure 3. maximum surge power figure 4. typical reverse leakage i r , reverse leakage ( m adc) @ v r rectangular nonrepetitive waveform t j = 25 c prior to initial pulse application note since the actual voltage available from a given zener diode is temperature dependent, it is necessary to determine junc- tion temperature under any set of operating conditions in order to calculate its value. the following procedure is recom - mended: lead temperature, t l , should be determined from: t l = q la p d + t a q la is the lead-to-ambient thermal resistance ( c/w) and p d is the power dissipation. the value for q la will vary and depends on the device mounting method. q la is generally 3040 c/w for the various clips and tie points in common use and for printed circuit board wiring. the temperature of the lead can also be measured using a thermocouple placed on the lead as close as possible to the tie point. the thermal mass connected to the tie point is normally large enough so that it will not significantly respond to heat surges generated in the diode as a result of pulsed operation once steady-state conditions are achieved. using the mea - sured value of t l , the junction temperature may be deter - mined by: t j = t l + d t jl d t jl is the increase in junction temperature above the lead temperature and may be found from figure 2 for a train of power pulses (l = 3/8 inch) or from figure 10 for dc power . d t jl = q jl p d for worst-case design, using expected limits of i z , limits of p d and the extremes of t j ( d t j ) may be estimated. changes in voltage, v z , can then be found from: d v = q vz d t j q vz , the zener voltage temperature coef ficient, is found from figures 5 and 6. under high power-pulse operation, the zener voltage will vary with time and may also be af fected significantly by the zener resistance. for best regulation, keep current excursions as low as possible. data of figure 2 should not be used to compute surge capa - bility. surge limitations are given in figure 3. they are lower than would be expected by considering only junction tempera - ture, as current crowding ef fects cause temperatures to be ex - tremely high in small spots resulting in device degradation should the limits of figure 3 be exceeded.
general data e 1-3 watt do-41 surmetic 30 motorola tvs/zener device data 6-45 13 watt do-41 surmetic 30 data sheet figure 5. units to 12 volts figure 6. units 10 to 400 volts figure 7. v z = 3.3 thru 10 volts figure 8. v z = 12 thru 82 volts figure 9. v z = 100 thru 400 volts figure 10. typical thermal resistance zener voltage versus zener current (figures 7, 8 and 9) temperature coefficient ranges (90% of the units are in the ranges indicated) v z , zener voltage @ i zt (volts) 3 4 5 6 7 8 9 10 11 12 10 8 6 4 2 0 2 4 range , temperature coefficient (mv/ c) @ i zt vz q 1000 500 200 100 50 20 10 10 20 50 100 200 400 1000 v z , zener voltage @ i zt (volts) , temperature coefficient (mv/ c) @ i zt vz q 0 1 2 3 4 5 6 7 8 9 10 100 50 30 20 10 1 0.5 0.3 0.2 0.1 v z , zener voltage (volts) i , zener current (ma) z 2 5 3 0 10 20 30 40 50 60 70 80 90 100 v z , zener voltage (volts) i , zener current (ma) z 100 50 30 20 10 1 0.5 0.3 0.2 0.1 2 5 3 100 200 300 400 250 350 150 10 1 0.5 0.2 0.1 v z , zener voltage (volts) 2 5 i , zener current (ma) z 0 10 20 30 40 50 60 70 80 l, lead length to heat sink (inch) primary path of conduction is through the cathode lead 0 1/8 1/4 3/8 1/2 5/8 3/4 7/8 1 t l jl , junction-t o-lead thermal resist ance q l l ( c/w)
general data e 1-3 watt do-41 surmetic 30 motorola tvs/zener device data 6-46 13 watt do-41 surmetic 30 data sheet *maximum ratings rating symbol value unit dc power dissipation @ t l = 75 c, lead length = 3/8 derate above 75 c p d 1.5 12 watts mw/ c *electrical characteristics (t l = 30 c unless otherwise noted. v f = 1.5 volts max @ l f = 200 madc for all types.) motorola type number (note 1) nominal zener voltage v z @ i zt volts (note 2 and 3) test current i zt ma max. zener impedance (note 4) max. reverse leakage current maximum dc zener current i zm madc type number (note 1) v z @ i zt volts (note 2 and 3) current i zt ma z zt @ i zt ohms z zk ohms i zk ma @ i r m a v r volts @ current i zm madc 1n5913b 3.3 113.6 10 500 1 100 1 454 1n5914b 3.6 104.2 9 500 1 75 1 416 1n5915b 3.9 96.1 7.5 500 1 25 1 384 1n5916b 4.3 87.2 6 500 1 5 1 348 1n5917b 4.7 79.8 5 500 1 5 1.5 319 1n5918b 5.1 73.5 4 350 1 5 2 294 1n5919b 5.6 66.9 2 250 1 5 3 267 1n5920b 6.2 60.5 2 200 1 5 4 241 1n5921b 6.8 55.1 2.5 200 1 5 5.2 220 1n5922b 7.5 50 3 400 0.5 5 6 200 1n5923b 8.2 45.7 3.5 400 0.5 5 6.5 182 1n5924b 9.1 41.2 4 500 0.5 5 7 164 1n5925b 10 37.5 4.5 500 0.25 5 8 150 1n5926b 11 34.1 5.5 550 0.25 1 8.4 136 1n5927b 12 31.2 6.5 550 0.25 1 9.1 125 1n5928b 13 28.8 7 550 0.25 1 9.9 115 1n5929b 15 25 9 600 0.25 1 11.4 100 1n5930b 16 23.4 10 600 0.25 1 12.2 93 1n5931b 18 20.8 12 650 0.25 1 13.7 83 1n5932b 20 18.7 14 650 0.25 1 15.2 75 1n5933b 22 17 17.5 650 0.25 1 16.7 68 1n5934b 24 15.6 19 700 0.25 1 18.2 62 1n5935b 27 13.9 23 700 0.25 1 20.6 55 1n5936b 30 12.5 26 750 0.25 1 22.8 50 1n5937b 33 11.4 33 800 0.25 1 25.1 45 1n5938b 36 10.4 38 850 0.25 1 27.4 41 1n5939b 39 9.6 45 900 0.25 1 29.7 38 1n5940b 43 8.7 53 950 0.25 1 32.7 34 1n5941b 47 8 67 1000 0.25 1 35.8 31 1n5942b 51 7.3 70 1100 0.25 1 38.8 29 1n5943b 56 6.7 86 1300 0.25 1 42.6 26 1n5944b 62 6 100 1500 0.25 1 47.1 24 1n5945b 68 5.5 120 1700 0.25 1 51.7 22 1n5946b 75 5 140 2000 0.25 1 56 20 1n5947b 82 4.6 160 2500 0.25 1 62.2 18 (continued) *indicates jedec registered data.
general data e 1-3 watt do-41 surmetic 30 motorola tvs/zener device data 6-47 13 watt do-41 surmetic 30 data sheet *electrical characteristics e continued (t l = 30 c unless otherwise noted. v f = 1.5 volts max @ l f = 200 madc for all types.) motorola type number (note 1) nominal zener voltage v z @ i zt volts (note 2 and 3) test current i zt ma max. zener impedance (note 4) max. reverse leakage current maximum dc zener current i zm madc type number (note 1) v z @ i zt volts (note 2 and 3) current i zt ma z zt @ i zt ohms z zk ohms i zk ma @ i r m a v r volts @ current i zm madc 1n5948b 91 4.1 200 3000 0.25 1 69.2 16 1n5949b 100 3.7 250 3100 0.25 1 76 15 1n5950b 110 3.4 300 4000 0.25 1 83.6 13 1n5951b 120 3.1 380 4500 0.25 1 91.2 12 1n5952b 130 2.9 450 5000 0.25 1 98.8 11 1n5953b 150 2.5 600 6000 0.25 1 114 10 1n5954b 160 2.3 700 6500 0.25 1 121.6 9 1n5955b 180 2.1 900 7000 0.25 1 136.8 8 1n5956b 200 1.9 1200 8000 0.25 1 152 7 *indicates jedec registered data. note 1. tolerance and voltage designation tolerance designation e device tolerances of 5% are indicated by a abo suffix. note 2. special selections available include: nominal zener voltages between those shown and 1% and 2% tight voltage tolerances. consult factory.
general data e 1-3 watt do-41 surmetic 30 motorola tvs/zener device data 6-48 13 watt do-41 surmetic 30 data sheet electrical characteristics (t a = 25 c unless otherwise noted) v f = 1.5 v max, i f = 200 ma for all types) motorola type no. (note 1) nominal zener voltage v z @ i zt volts (note 2) test current i zt ma max zener impedance (note 3) leakage current maximum zener current i zm ma surge current @ t a = 25 c i r ma (note 4) motorola type no. (note 1) v z @ i zt volts (note 2) current i zt ma z zt @ i zt ohms z zk @ i zk ohms i zk ma i r m a max v r volts @ current i zm ma @ t a = 25 c i r ma (note 4) 3ez3.9d5 3.9 192 4.5 400 1 80 1 630 4.4 3ez4.3d5 4.3 174 4.5 400 1 30 1 590 4.1 3ez4.7d5 4.7 160 4 500 1 20 1 550 3.8 3ez5.1d5 5.1 147 3.5 550 1 5 1 520 3.5 3ez5.6d5 5.6 134 2.5 600 1 5 2 480 3.3 3ez6.2d5 6.2 121 1.5 700 1 5 3 435 3.1 3ez6.8d5 6.8 110 2 700 1 5 4 393 2.9 3ez7.5d5 7.5 100 2 700 0.5 5 5 360 2.66 3ez8.2d5 8.2 91 2.3 700 0.5 5 6 330 2.44 3ez9.1d5 9.1 82 2.5 700 0.5 3 7 297 2.2 3ez10d5 10 75 3.5 700 0.25 3 7.6 270 2 3ez11d5 11 68 4 700 0.25 1 8.4 245 1.82 3ez12d5 12 63 4.5 700 0.25 1 9.1 225 1.66 3ez13d5 13 58 4.5 700 0.25 0.5 9.9 208 1.54 3ez14d5 14 53 5 700 0.25 0.5 10.6 193 1.43 3ez15d5 15 50 5.5 700 0.25 0.5 11.4 180 1.33 3ez16d5 16 47 5.5 700 0.25 0.5 12.2 169 1.25 3ez17d5 17 44 6 750 0.25 0.5 13 159 1.18 3ez18d5 18 42 6 750 0.25 0.5 13.7 150 1.11 3ez19d5 19 40 7 750 0.25 0.5 14.4 142 1.05 3ez20d5 20 37 7 750 0.25 0.5 15.2 135 1 3ez22d5 22 34 8 750 0.25 0.5 16.7 123 0.91 3ez24d5 24 31 9 750 0.25 0.5 18.2 112 0.83 3ez27d5 27 28 10 750 0.25 0.5 20.6 100 0.74 3ez28d5 28 27 12 750 0.25 0.5 21 96 0.71 3ez30d5 30 25 16 1000 0.25 0.5 22.5 90 0.67 3ez33d5 33 23 20 1000 0.25 0.5 25.1 82 0.61 3ez36d5 36 21 22 1000 0.25 0.5 27.4 75 0.56 3ez39d5 39 19 28 1000 0.25 0.5 29.7 69 0.51 3ez43d5 43 17 33 1500 0.25 0.5 32.7 63 0.45 3ez47d5 47 16 38 1500 0.25 0.5 35.6 57 0.42 3ez51d5 51 15 45 1500 0.25 0.5 38.8 53 0.39 3ez56d5 56 13 50 2000 0.25 0.5 42.6 48 0.36 3ez62d5 62 12 55 2000 0.25 0.5 47.1 44 0.32 3ez68d5 68 11 70 2000 0.25 0.5 51.7 40 0.29 3ez75d5 75 10 85 2000 0.25 0.5 56 36 0.27 3ez82d5 82 9.1 95 3000 0.25 0.5 62.2 33 0.24 3ez91d5 91 8.2 115 3000 0.25 0.5 69.2 30 0.22 3ez100d5 100 7.5 160 3000 0.25 0.5 76 27 0.2 3ez110d5 110 6.8 225 4000 0.25 0.5 83.6 25 0.18 3ez120d5 120 6.3 300 4500 0.25 0.5 91.2 22 0.16 3ez130d5 130 5.8 375 5000 0.25 0.5 98.8 21 0.15 3ez140d5 140 5.3 475 5000 0.25 0.5 106.4 19 0.14 3ez150d5 150 5 550 6000 0.25 0.5 114 18 0.13 3ez160d5 160 4.7 625 6500 0.25 0.5 121.6 17 0.12 3ez170d5 170 4.4 650 7000 0.25 0.5 130.4 16 0.12 3ez180d5 180 4.2 700 7000 0.25 0.5 136.8 15 0.11 3ez190d5 190 4 800 8000 0.25 0.5 144.8 14 0.1 (continued)
general data e 1-3 watt do-41 surmetic 30 motorola tvs/zener device data 6-49 13 watt do-41 surmetic 30 data sheet electrical characteristics e continued (t a = 25 c unless otherwise noted) v f = 1.5 v max, i f = 200 ma for all types) motorola type no. (note 1) nominal zener voltage v z @ i zt volts (note 2) test current i zt ma max zener impedance (note 3) leakage current maximum zener current i zm ma surge current @ t a = 25 c i r ma (note 4) motorola type no. (note 1) v z @ i zt volts (note 2) current i zt ma z zt @ i zt ohms z zk @ i zk ohms i zk ma i r m a max v r volts @ current i zm ma @ t a = 25 c i r ma (note 4) 3ez200d5 200 3.7 875 8000 0.25 0.5 152 13 0.1 3ez220d5 220 3.4 1600 9000 0.25 1 167 12 0.09 3ez240d5 240 3.1 1700 9000 0.25 1 182 11 0.09 3ez270d5 270 2.8 1800 9000 0.25 1 205 10 0.08 3ez300d5 300 2.5 1900 9000 0.25 1 228 9 0.07 3ez330d5 330 2.3 2200 9000 0.25 1 251 8 0.06 3ez360d5 360 2.1 2700 9000 0.25 1 274 8 0.06 3ez400d5 400 1.9 3500 9000 0.25 1 304 7 0.06 note 1. tolerances suffix 5 indicates 5% tolerance. any other tolerance will be considered as a special device. note 2. zener voltage (v z ) measurement motorola guarantees the zener voltage when measured at 40 ms 10 ms 3/8 from the diode body, and an ambient temperature of 25 c (+8 c, 2 c) note 3. zener impedance (z z ) derivation the zener impedance is derived from the 60 cycle ac voltage, which results when an ac cur - rent having an rms value equal to 10% of the dc zener current (i zt or i zk ) is superimposed on i zt or i zk . note 4. surge current (i r ) non-repetitive the rating listed in the electrical characteristics table is maximum peak, non-repetitive, re - verse surge current of 1/2 square wave or equivalent sine wave pulse of 1/120 second dura - tion superimposed on the test current, i zt , per jedec standards, however , actual device ca - pability is as described in figure 3 of general data sheet for surmetic 30s. note 5. special selections available include: nominal zener voltages between those shown. t ight voltage tolerances such as 1% and 2%. consult factory. note 3. zener voltage (v z ) measurement motorola guarantees the zener voltage when meausred at 90 seconds while maintaining the lead temperature (t l ) at 30 c 1 c, 3/8 from the diode body. note 4. zener impedance (z z ) derivation the zener impedance is derived from the 60 cycle ac voltage, which results when an ac cur - rent having an rms value equal to 10% of the dc zener current (i zt or i zk ) is superimposed on i zt or i zk .
general data e 1-3 watt do-41 surmetic 30 motorola tvs/zener device data 6-50 13 watt do-41 surmetic 30 data sheet electrical characteristics (t a = 25 c unless otherwise noted.) v f = 1.5 v max, i f = 200 ma for all types. type no. (note 1) zener voltage (note 2) test current i zt ma zener impedance at i zt f = 1000 hz (ohm) blocking voltage i r = 1 m a typical t c %/ c surge current @ t l = 25 c i r ma (note 3) type no. (note 1) min max i zt ma typ max blocking voltage i r = 1 m a t c %/ c i r ma (note 3) mzd3.9 3.7 4.1 100 3.8 7 e 0.06 1380 mzd4.3 4 4.6 100 3.8 7 e + 0.055 1260 mzd4.7 4.4 5 100 3.8 7 e + 0.03 1190 mzd5.1 4.8 5.4 100 2 5 e + 0.03 1070 mzd5.6 5.2 6 100 1 2 1.5 +0.038 970 mzd6.2 5.8 6.6 100 1 2 1.5 +0.045 890 mzd6.8 6.4 7.2 100 1 2 2 +0.05 810 mzd7.5 7 7.9 100 1 2 2 +0.058 730 mzd8.2 7.7 8.7 100 1 2 3.5 +0.062 660 mzd9.1 8.5 9.6 50 2 4 3.5 +0.068 605 mzd10 9.4 10.6 50 2 4 5 +0.075 550 mzd11 10.4 11.6 50 4 7 5 +0.076 500 mzd12 11.4 12.7 50 4 7 7 +0.077 454 mzd13 12.4 14.1 50 5 10 7 +0.079 414 mzd15 13.8 15.8 50 5 10 10 +0.082 380 mzd16 15.3 17.1 25 6 15 10 +0.083 344 mzd18 16.8 19.1 25 6 15 10 +0.085 304 mzd20 18.8 21.2 25 6 15 10 +0.086 285 mzd22 20.8 23.3 25 6 15 12 +0.087 250 mzd24 22.8 25.6 25 7 15 12 +0.088 225 mzd27 25.1 28.9 25 7 15 14 +0.09 205 mzd30 28 32 25 8 15 14 +0.091 190 mzd33 31 35 25 8 15 17 +0.092 170 mzd36 34 38 10 21 40 17 +0.093 150 mzd39 37 41 10 21 40 20 +0.094 135 mzd43 40 46 10 24 45 20 +0.095 125 mzd47 44 50 10 24 45 24 +0.095 115 mzd51 48 54 10 25 60 24 +0.096 110 mzd56 52 60 10 25 60 28 +0.096 95 mzd62 58 66 10 25 80 28 +0.097 90 mzd68 64 72 10 25 80 34 +0.097 80 mzd75 70 79 10 30 100 34 +0.098 70 mzd82 77 88 10 30 100 41 +0.098 65 mzd91 85 96 5 60 200 41 +0.099 60 MZD100 94 106 5 60 200 50 +0.11 55 mzd110 104 116 5 80 250 50 +0.11 50 mzd120 114 127 5 80 250 60 +0.11 45 mzd130 124 141 5 110 300 60 +0.11 e mzd150 138 156 5 110 300 75 +0.11 e mzd160 153 171 5 150 350 75 +0.11 e mzd180 168 191 5 150 350 90 +0.11 e mzd200 188 212 5 150 350 90 +0.11 e note 1. t olerance and type number designa tion the type numbers listed have zener voltage min/max limits as shown. note 2. zener voltage (v z ) measurement the zener voltage is measured after the test current (i zt ) has been applied for 40 10 milli- seconds, while maintaining a lead temperautre (t l ) of 30 c at a point of 10 mm from the diode body. note 3. (i r ) non-repetitive surge current maximum peak, non-repetitive reverse surge current of half square wave or equivalent sine wave pulse of 50 ms duration, superimposed on the test current (i zt ). note 4. special selections available include: nominal zener voltages between those shown. t ight voltage tolerances such as 1% and 2%. consult factory.
general data e 1-3 watt do-41 surmetic 30 motorola tvs/zener device data 6-51 13 watt do-41 surmetic 30 data sheet electrical characteristics (t a = 25 c unless otherwise noted) v f = 1.5 v max, l f = 200 ma for all types motorola type no. (note 1) nominal zener voltage v z @ i zt volts (note 2) test current i zt ma max zener impedance (note 3) leakage current surge current @ t a = 25 c i r ma (note 4) motorola type no. (note 1) v z @ i zt volts (note 2) test current i zt ma z zt @ i zt ohms z zk @ i zk ohms i zk ma i r m a max v r volts @ @ t a = 25 c i r ma (note 4) mzp4728a 3.3 76 10 400 1 100 1 1380 mzp4729a 3.6 69 10 400 1 100 1 1260 mzp4730a 3.9 64 9 400 1 50 1 1190 mzp4731a 4.3 58 9 400 1 10 1 1070 mzp4732a 4.7 53 8 500 1 10 1 970 mzp4733a 5.1 49 7 550 1 10 1 890 mzp4734a 5.6 45 5 600 1 10 2 810 mzp4735a 6.2 41 2 700 1 10 3 730 mzp4736a 6.8 37 3.5 700 1 10 4 660 mzp4737a 7.5 34 4 700 0.5 10 5 605 mzp4738a 8.2 31 4.5 700 0.5 10 6 550 mzp4739a 9.1 28 5 700 0.5 10 7 500 mzp4740a 10 25 7 700 0.25 10 7.6 454 mzp4741a 11 23 8 700 0.25 5 8.4 414 mzp4742a 12 21 9 700 0.25 5 9.1 380 mzp4743a 13 19 10 700 0.25 5 9.9 344 mzp4744a 15 17 14 700 0.25 5 11.4 304 mzp4745a 16 15.5 16 700 0.25 5 12.2 285 mzp4746a 18 14 20 750 0.25 5 13.7 250 mzp4747a 20 12.5 22 750 0.25 5 15.2 225 mzp4748a 22 11.5 23 750 0.25 5 16.7 205 mzp4749a 24 10.5 25 750 0.25 5 18.2 190 mzp4750a 27 9.5 35 750 0.25 5 20.6 170 mzp4751a 30 8.5 40 1000 0.25 5 22.8 150 mzp4752a 33 7.5 45 1000 0.25 5 25.1 135 mzp4753a 36 7 50 1000 0.25 5 27.4 125 mzp4754a 39 6.5 60 1000 0.25 5 29.7 115 mzp4755a 43 6 70 1500 0.25 5 32.7 110 mzp4756a 47 5.5 80 1500 0.25 5 35.8 95 mzp4757a 51 5 95 1500 0.25 5 38.8 90 mzp4758a 56 4.5 110 2000 0.25 5 42.6 80 mzp4759a 62 4 125 2000 0.25 5 47.1 70 mzp4760a 68 3.7 150 2000 0.25 5 51.7 65 mzp4761a 75 3.3 175 2000 0.25 5 56 60 mzp4762a 82 3 200 3000 0.25 5 62.2 55 mzp4763a 91 2.8 250 3000 0.25 5 69.2 50 mzp4764a 100 2.5 350 3000 0.25 5 76 45 1m110zs5 110 2.3 450 4000 0.25 5 83.6 e 1m120zs5 120 2 550 4500 0.25 5 91.2 e 1m130zs5 130 1.9 700 5000 0.25 5 98.8 e 1m150zs5 150 1.7 1000 6000 0.25 5 114 e 1m160zs5 160 1.6 1100 6500 0.25 5 121.6 e 1m180zs5 180 1.4 1200 7000 0.25 5 136.8 e 1m200zs5 200 1.2 1500 8000 0.25 5 152 e the type numbers listed have a standard tolerance on the nominal zener voltage of 5%. the tolerance on the 1m type numbers is indicated by the digits following zs in the part number . a5o indicates a 5% v z tolerance. note 1. t olerance and type number designa tion note 4. surge current (i r ) non-repetitive note 2. zener voltage (v z ) measurement motorola guarantees the zener voltage when measured at 90 seconds while maintaining the lead temperature (t l ) at 30 c 1 c, 3/8 from the diode body. note 3. zener impedance (z z ) derivation the zener impedance is derived from the 60 cycle ac voltage, which results when an ac the rating listed in the electrical characteristics table is maximum peak, non-repetitive, reverse surge current of 1/2 square wave or equivalent sine wave pulse of 1/120 second duration superimposed on the test current, i zt , however , actual device capability is as described in figure 3 of general data e surmetic 30. note 5. special selections available include: nominal zener voltages between those shown. t ight voltage tolerances such as 1% and 2%. consult factory. current having an rms value equal to 10% of the dc zener current (i zt or i zk ) is superimposed on i zt or i zk .
general data e 1-3 watt do-41 surmetic 30 motorola tvs/zener device data 6-52 13 watt do-41 surmetic 30 data sheet 13 watt do-41 surmetic 30 multiple package quantity (mpq) requirements zener voltage regulator diodes e axial leaded case 59-03 do-41 plastic (refer to section 10 for surface mount, thermal data and footprint information.) (refer to section 10 for more information on packaging specifications.) package option tape and reel 6k type no. suffix rl mpq (units) tape and ammo ta 4k notes: 1. all rules and notes associated with jedec do-41 outline shall apply. 2. polarity denoted by cathode band. 3. lead diameter not controlled within f dimension. k k f a f d min min max max millimeters inches dim 4.07 2.04 0.71 e 27.94 5.20 2.71 0.86 1.27 e 0.160 0.080 0.028 e 1.100 0.205 0.107 0.034 0.050 e a b d f k b motorola reserves the right to make changes without further notice to any products herein. motorola makes no warranty , representation or guarantee regarding the suitability of its products for any particular purpose, nor does motorola assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability , including without limitation consequential or incidental damages. at ypicalo parameters can and do vary in dif ferent applications. all operating parameters, including at ypicalso must be validated for each customer application by customer ' s technical experts. motorola does not convey any license under its patent rights nor the rights of others. motorola products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body , or other applications intended to support or sustain life, or for any other application in which the failure of the motorola product could create a situation where personal injury or death may occur . should buyer purchase or use motorola products for any such unintended or unauthorized application, buyer shall indemnify and hold motorola and its of ficers, employees, subsidiaries, af filiates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly , any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that motorola was negligent regarding the design or manufacture of the part. motorola and are registered trademarks of motorola, inc. motorola, inc. is an equal opportunity/af firmative action employer . literature distribution centers: usa: motorola literature distribution; p .o. box 20912; phoenix, arizona 85036. europe: motorola ltd.; european literature centre; 88 t anners drive, blakelands, milton keynes, mk14 5bp , england. jap an: nippon motorola ltd.; 4-32-1, nishi-gotanda, shinagawa-ku, t okyo 141, japan. asia p acific: motorola semiconductors h.k. ltd.; silicon harbour center , no. 2 dai king street, t ai po industrial estate, t ai po, n.t., hong kong. ?
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