any changing of specification will not be informed individual UMD3N npn-pnp built-in resistors multi-chip digital transistor http://www.secosgmbh.com elektronische bauelemente features * dta114e and dtc114e transistors are built-in a sot-363 package. * transistor elements are independent, eliminating interference. * mounting cost and area can be cut in half. electrical characteristics( tamb=25 o c unless otherwise specified) 01 -jan-2006 rev. b page 1 of 2 d t r 2 d t r 1 (3) (2) (4) (5) r 1 r r 2 r 1 =r 2 =10 k marking: d 3 para meter symbol limit s unit (1) (6) 2 r 1 supply voltage v cc 50 v input voltage v in -10~40 v i o 50 output current i c(max) 100 ma power dissipation pd 150(total) mw junction temperature tj 150 storage temperature tstg -55~150 electrical characteristics (ta=25 ) parameter symbol min. typ max. unit conditions v i(off) 0.5 v cc =5v ,i o =100 a input voltage v i(on) 3 v v o =0.3v ,i o =10ma output voltage v o(on) 0.3 v i o /i i =10ma/0.5ma input current i i 0.88 ma v i =5v output current i o(off) 0.5 a v cc =50v, v i =0 dc current gain g i 30 v o =5v,i o =5ma input resistance r 1 7 10 13 k ? resistance ratio r 2 /r 1 0.8 1 1.2 transition frequency f t 250 mhz v ce =10v ,i e =-5ma,f=100mhz sot-363 dimensions in inches and (millimeters) .014(0.35) .006(0.15) .087(2.20) .079(2.00) .055(1.40) .047(1.20) .026 t yp (0.65 t yp) .096(2.45) .085(2.15) .021ref (0.525)ref .018(0.46) .010(0.26) .006(0.15) .003(0.08) .053(1.35) .045(1.15) .043(1.10) .035(0.90) .039(1.00) .035(0.90) .004(0.10) .000(0.00) 8 o o 0 ? 1 2 3 4 5 6
any changing of specification will not be informed individual UMD3N npn-pnp built-in resistors multi-chip digital transistor http://www.secosgmbh.com ele k troni sche bauelemente 01 -j a n-200 6 rev. b page 2 of 2 dt r 1 (npn) input voltage : v i (on) (v) output current : i o (a) 100 200 500 1m 2m 5m 10m 20m 50m 100m 100 50 20 10 5 2 1 500m 200m 100m v o =0.3v ta= ? 40?c 25?c 100?c fig.1 input voltage vs. output current (on characteristics) input voltage : v i (off) (v) output current : io (a) 03 10m 1 2m 5m 1m 200 500 100 20 50 10 2 5 0.5 1 1.5 2 2.5 v cc =5v ta=100?c 25?c ? 40?c fig.2 output current vs. input voltage (off characteristics) output current : i o (a) dc current gain : g i 100 200 500 1m 2m 5m 10m 20m 50m 100m 1k 500 200 100 50 20 10 5 2 1 v o =5v ta=100?c 25?c ? 40?c fig.3 dc current gain vs. output current output current : i o (a) output voltage : v o (on) (v) 100 200 500 1m 2m 5m 10m 20m 50m 100m 1 500m 200m 100m 50m 20m 10m 5m 2m 1m l o /l i =20 ta=100?c 25?c ? 40?c fig.4 output voltage vs. output current dt r 2 (pnp) v o = ? 0.3v input voltage : v i (on) (v) output current : i o (a) ? 100 ? 50 ? 20 ? 10 ? 200m ? 100m ? 100 ? 1m ? 10m ? 100m ? 200 ? 2m ? 20m ? 500 ? 5m ? 50m ? 5 ? 2 ? 1 ? 500m 25?c 100?c ta= ? 40?c fig.5 input voltage vs. output current (on characteristics) v cc = ? 5v 0 ? 3 ? 10m ? 1 ? 2m ? 5m ? 1m ? 200 ? 500 ? 100 ? 20 ? 50 ? 10 ? 2 ? 5 ? 0.5 ? 1 ? 1.5 ? 2 ? 2.5 input voltage : v i (off) (v) output current : io (a) ta=100? c 25? c ? 40?c fig.6 output current vs. input voltage (off characteristics) v o = ? 5v ta=100? c 25? c ? 40?c dc current gain : g i output current : i o (a) 1k 500 200 100 50 20 10 5 2 1 ? 100 ? 1m ? 10m ? 100m ? 200 ? 2m ? 20m ? 500 ? 5m ? 50m fig.7 dc current gain vs. output current l o /l i =20 ta=100?c 25?c ? 40?c ? 1 ? 500m ? 200m ? 100m ? 10m ? 50m ? 5m ? 20m ? 2m ? 1m output current : i o (a) output voltage : v o (on) (v) ? 100 ? 1m ? 10m ? 100m ? 200 ? 2m ? 20m ? 500 ? 5m ? 50m fig.8 output voltage vs. output current
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