Conversion of Bipolar Metal Can to Plastic Conversion of Bipolar Metal Can to Plastic Plastic Electrical : Plastic Electrical Metal P/N Equivalent Equivalency Process Metal P/N Equivalent Equivalency* Process 2N697 2N4400 A 13 2N2905 TN2905 E 63 2N706 MPS706 E 21 2N2905A TN2905A E 63 2N708 PN3646 N 22 2N2906 PN2906 E 63 2N718 2N4400 A 13 2N2906A PN2906A E 63 2N722 PN2906 N 63 2N2907 PN2907 E 63 2N744 PN2369 N 21 2N2907A PN2907A E 63 2N753 PN2369 N 21 2N3009 PN3646 N 22 2N760A 2N4409 N 07 2N3011 PN2369 N 21 2N834 MPS834 E 21 2N3012 PN3640 A 65 2N869A PN3640 A 65 2N3013 PN3646 E 22 2N915 MPS6565 A 27 2N3019 TN3019 E 12 2N917 PN3563 E 43 2N3020 TN3020 E 12 2N918 PN918 E 43 2N3053 2N3053 E 12 2N929 2N4409 N 07 2N3117 2N5210 N 07 2N930 PN930 E 07 2N3133 MPS3703 N 63 2N956 PN2222A N 19 2N3134 PN3645 N 63 2N995A PN3640 A 65 2N3135 MPS3703 N 63 2N1132 PN2906 N 63 2N3136 PN3645 N 63 2N1613 PN2221A N 19 2N3250 2N3905 A 66 2N1711 PN2222A N 19 2N3251 2N3906 A 66 2N2218 TN2218 E 19 2N3300 2N4401 A 13 2N2218A TN2218A E 19 2N3301 2N4400 A 13 2N2219 TN2219 E 19 2N3302 2N4401 A 13 2N2219A TN2219A E 19 2N3304 PN3639 A 65 2N2221 PN2221 E 19 2N3440 TN3440 E 36 2N2221A PN2221A E 19 2N3724 TN3724 E 25 2N2222 PN2222 E 19 2N3725 TN3725 E 25 2N2222A PN2222A E 19 2N3944 2N3903 N 23 2N2369 PN2369 E 21 2N3947 2N3904 N 23 2N2369A PN2369A E 21 2N3962 2N5086 N 62 2N2483 2N5209 N 07 2N3964 2N5087 N 62 2N2484 2N5210 N 07 2N3965 2N5087 N 62 2N2604 2N5086 N 62 2N4033 TN4033 E 67 2N2605 2N5086 N 62 2N4036 TN4036 E 67 2N2894 PN3640 A 65 2N4037 TN4037 E 67 2N2894A PN3639 A 65 2N4208 PN3640 N 65 2N2904 TN2904 E 63 2N4209 PN3640 N 65 2N2904A TN2904A E 63 * E = Exact electrical equivalent N = Near electrical equivalent A = Approximate electrical equivalent Note: On N and A categories please refer to device specification section for deviatian from metal can specifications. This list is for use when an alternative to a metal can transistor is needed. To facilitate conversions on the most popular types National is offering the PN series, TO-92 devices that use the same die type and are screened to same electrical specifications, The TO-92 transistors produced by National Semiconductor are the most advanced Plastic Transistors ever manufactured. They utilize epoxy B encapsulation and a copper lead frame to give a power dissipation of up to 625 mW @ Ta = 25C. These transistors provide electrical pertorm- ance and reliability equivalent to their metal can versions in most applications where T; does not exceed 150C. The same situation is applicable to the TN series, except that the Nationai-originated TO-237 (TO-92 + ) case outline is used, which permits power dissipa- tion of up to 1.0W @ Ta = 25C. 18 Leh MEDIUM POWER Vepo | VEER" | vepo | 'CeS VeEISAT) VBE(SAT) Cob fr toft | NF Type Case Vceo ICBO @ VcB hee Ic Vce ic le Test Process No Style v) {Vv} ) (nA) e (V) -| Min Max e (mA} & (Vv) {v) & ) e (mA) (pF) (MHz) @ (mA) (ns) | (dB) Conditions No, . Min Min : Max Min Max Max | Min Max Max | Mak- Min Max 2N699 TO-39 | 120 60 5 2 60 40 120 150 10 5.0 13 150 | 20 | 50 50 12 2N1613 TO-5 75 35 7 10 60 20 500 10 15 13 150 | 25 | 60 50 12 1 12 40 120 150 10 35 10 10 20 100zA 10 2N1711 TO-5 75 35 7 10 60 40 500 10 15 13 150 | 25 | 70 50 8 1 12 100 300 150 10 75 10 10 35 100nA = 10 20 10 nA 10 2N2017. | TO-39 | 60 60 8 1OuA 30 20 10 Te 20 200 12 50 200 200 10 20 1A 15 2N2102 | TO-39 | 120 65 7 2 60 10 0.01 10 0.5 1 150 [ 15 | 60 50 12 20 0.1 10 35 10 10 40 120 150 10 25 500 10 10 1A 10 2N2192 | TO-39 | 60 40 5 10 30 15 0.01 10 0.35 13 150 | 10 [ 50 50 12 75 0.1 10 100 300 10 10 70 150 10 35 500 10 15 1A 10 2N2192A | TO-39 | 60 40 5 10 30 15 0.01 10 0.25 13 150 | 20 | 50 50 12 75 0.1 10 100 300 10 10 70 150 10 35 500 10 15 1A 10 2N2193 | To-39| 80 50 8 10 80 15 0.01 10 0.35 13 150 | 20 | 50 50 12 30 0.1 10 40 120 10 10 30 150 10 20 500 10 15 1A 10 TEST CONDITIONS: (1) Ig = 50 MA, Veg = 100V, Ig! = Ig2 = 5 mA. (2) Ip = 500 BA, VcE = 10V, f = 1 kHz. (3) I = 500 MA, Voc = 30V, Ip! = Ig? = 50 mA. (4) Ig = 150 mA, Voc = 30V, Ig! = Ig2 = 15 mA. (5) Ic = 100 vA, Vec = 10V, f = 1 kHz. (6) ig = 500 mA, Veg = 30V, tg! = Ip? = 50 mA. (7) Ig = 2A, Veg = 40V, Ig! = }g2 = 200 mA. SJO}SISUBAL NdN