TV45V-HF Thru. TV444-HF Working Peak : 5. to 44 Volts Power Dissipation: 4 Watts RoHS Device Halogen Free Features - Glass passivated chip. - 4W peak pulse power capability with a / µs waveform, repetitive rate (duty cycle):.% - Low leakage. - Uni and idirectional unit. - Excellent clamping capability. - Very fast response time. - UL recognized file # E34957 R - Range: TV45VJ() thru. TV424J() Mechanical data - Epoxy: UL 94V- rate flame retardant. - ase: SM/DO-24, molded plastic. - Terminals: solderable per MIL-STD-75, method 226. - Polarity: olor band denotes cathode end execpt bipolar. - Weight:.69 gram (approx.).64(.63).48(.23).89(2.26).77(.96).59(.5).3(.75) SM/DO-24.79(4.55).6(4.) Dimensions in inches and (millimeter).9(2.76).99(2.5).26(5.22).92(4.87).2(.3).6(.5).8(.2).(.) Ratings and Electrical haracteristics O Ratings at 25 ambient temperature unless otherwise specified. Single phase, half wave, 6Hz, resistive or inductive load. For capacitive load, derate current by 2%. haracteristics Symbol Value Units Peak power dissipation on /μs waveform (Note) PPP 4 W Peak pulse current on /μs waveform (Note ) IPP See Next Table Steady state power dissipation at TL=75 PD. W Peak forward surge current, 8.3mS single half sine-wave unidirectional only (Note 2) IFSM 4 instantaneous forward voltage at 25. for unidirectional only (Note 3) VF 3.5/5. V Operating junction and storage temperature TJ, TSTG -55 to +5 Notes:. Non-repetitive current pulse, per Fig. 5 and derated above T=25, per Fig.. 2. Measured on 8.3mS single half sine-wave or equare wave,duty cycle=4 pulses per minute maximum. 3. VF<3.5V for devices of VR<2V and VF<5.V for devices of VR>2V Page
RTING ND HRTERISTI URVES (TV45V-HF thru TV444-HF) Peak Pulse Derating in Percentage of Peak Power or urrent, (%) 8 6 4 2 Fig. - Pulse Derating urve Peak Forward Surge urrent, () 5 4 3 2 Fig.2 - Non-Repetitive Surge urrent 8.3mS single half sine-wave (JEDE method) TJ=TJ, max. 25 5 75 25 5 75 2 mbient Temperature, T ( ) Number of ycles at 6Hz Fig.3 - Steady State Power Derating urve Fig.4 - Peak Pulse Power Rating urve. Steady Power Dissipation, (W).8.6.4.2 Peak Power, (kw).. 25 5 75 25 5 75.. Lead Temperature, TL ( ) Pulse Width, td (μs) Fig.5 - Pulse Waveforem Fig.6 - Typical Junction apacitance Peak Pulse urrent, (%) 5 td Tr=μs Peak value (Ipp) TJ = 25 Pluse width(td) is defined as the point where the peak current decays to 5% of Ipp Half Value= Ipp 2 / μsec. waveform as defined by R.E... 2. 3. 4. Junction apacitance, J (pf) TJ=25 f=.mhz Uni-directional @VRWM i-directional @zero bias Uni-directional @zero bias i-directional @ VRWM Time, (ms) reakdown, VR (V) Page 2
Electrical haracteristics (TV45V-HF Thru. TV444-HF) Part No. reakdown voltage VR @ IT Min. Max. IT (V) (V) (m) Leakage @VRWM IR (u) Working Peak VRWM (V) Surge urrent IPP () lamping @IPP V (V) Device Marking ode UNI I TV45VJ()-HF 6.4 7. 8 5. 43.48 9.2 TV46VJ()-HF 6.67 7.37 8 6. 38.83.3 TV46V5J()-HF 7.22 7.98 5 6.5 35.7.2 TV47VJ()-HF 7.78 8.6 2 7. 33.33 2. TV47V5J()-HF 8.33 9.2 7.5 3. 2.9 TV48VJ()-HF 8.89 9.83 5 8. 29.4 3.6 TV48V5J()-HF 9.44.4 8.5 27.78 4.4 TV49VJ()-HF.. 5 9. 25.97 5.4 TV4J()-HF. 2.3 5. 23.53 7. TV4J()-HF 2.2 3.5. 2.98 8.2 TV42J()-HF 3.3 4.7 2. 2. 9.9 TV43J()-HF 4.4 5.9 3. 8.6 2.5 TV44J()-HF 5.6 7.2 4. 7.24 23.2 TV45J()-HF 6.7 8.5 5. 6.39 24.4 TV46J()-HF 7.8 9.7 6. 5.38 26. TV47J()-HF 8.9 2.9 7. 4.49 27.6 TV48J()-HF 2. 22. 8. 3.7 29.2 TV49J()-HF 2. 23.3 9. 3. 3.8 TV42J()-HF 22.2 24.5 2. 2.35 32.4 TV422J()-HF 24.4 26.9 22..27 35.5 TV424J()-HF 26.7 29.5 24..28 38.9 TV426J()-HF 28.9 3.9 26. 9.5 42. TV428J()-HF 3. 34.4 28. 8.8 45.4 TV43J()-HF 33.3 36.8 3. 8.26 48.4 TV433J()-HF 36.7 4.6 33. 7.5 53.3 TV436J()-HF 4. 44.2 36. 6.88 58. TV44J()-HF 44.4 49. 4. 6.2 64.5 TV443J()-HF 47.8 52.8 43. 5.76 69.4 E G K M P R T V X Z E G K M P R T V X Z E G K M P R T WE WG WK WM WP WR WT WV WX WZ XE XG XK XM XP XR XT X XV XX XZ YE YG YK YM YP YR YT TV445J()-HF TV448J()-HF TV45J()-HF TV454J()-HF 5. 55.3 45. 5.5 72.7 53.3 58.9 48. 5.7 77.4 56.7 62.7 5. 4.85 82.4 6. 66.3 54. 4.59 87. V X Z RE YV YX YZ ZE TV458J()-HF TV46J()-HF TV464J()-HF TV47J()-HF 64.4 7.2 58. 4.27 93.6 66.7 73.7 6. 4.3 96.8 7. 78.6 64. 3.88 3. 77.8 86. 7. 3.54 3. RG RK RM RP ZG ZK ZM ZP TV475J()-HF TV478J()-HF TV48J()-HF TV485J()-HF 83.3 92. 75. 3.3 2. 86.7 95.8 78. 3.7 26. 88.8 97.6 8. 3.9 29.6 94.4 4. 85. 2.92 37. RR RT R RV ZR ZT Z ZV Page 3
Electrical haracteristics (TV45V-HF Thru. TV444-HF) Part No. reakdown voltage VR @ IT Min. Max. IT (V) (V) (m) Leakage @VRWM IR (u) Working Peak VRWM (V) Surge urrent IPP () lamping @IPP V (V) Device Marking ode UNI I TV49J()-HF TV4J()-HF TV4J()-HF TV42J()-HF.. 9. 2.74 46.. 23.. 2.47 62. 22. 35.. 2.26 77. 33. 47. 2. 2.7 93. RX RZ SE SG ZX ZZ VE VG TV43J()-HF 44. 59. 3..9 29. TV44J()-HF 55. 7. 4..76 226.8 TV45J()-HF 67. 85. 5..65 243. TV46J()-HF 78. 97. 6..54 259. TV47J()-HF 89. 29. 7..45 275. TV48J()-HF 2. 22. 8..37 29.6 TV49J()-HF 2. 232. 9..3 37.8 TV42J()-HF 224. 247. 2..23 324. TV422J()-HF 246. 272. 22..2 356. TV425J()-HF 279. 39. 25..99 45. TV43J()-HF 335. 37. 3..82 486. TV435J()-HF 39. 432. 35..7 567. SK S SM SP SR ST SV SW SX SZ DE DG VK V VM VP VR VT VV VW VX VZ HE HG TV44J()-HF TV444J()-HF 447. 494. 4..62 648. 492. 543. 44..56 73. DK DM HK HM Note: ) Suffix J denotes 5% tolerance devices. 2) Suffix after part number to specify i-directional devices. 3) For i-directional devices having VR of volts and under, the IR limit is double. Page 4
Reel Taping Specification P P d Index hole E T F W P 2 o D2 D D W Trailer Device Leader End Start pitches (min) pitches (min) Direction of Feed SM/DO-24 SYMOL (mm) (inch) 2.79 ±. 5.33 ±. d D D D2 4.5 (max).75 ±. 33MX 5. MIN. 3. ±.2. ±.4.2 ±.4.77 (max).69 ±.4 3.MX.969 MIN..52 ±.8 SM/DO-24 SYMOL (mm) E F P P P W W.75 ±. 5.5 ±.5 4. ±. 4. ±. 2. ±.5 2. ±.3 8.4 MX. (inch).69 ±.4.26 ±.2.57 ±.4.57 ±.4.79 ±.2.472 ±.2.724 MX Page 5
Marking ode. : OMHIP 2 2. : Package PKG SM SM 4 XX SM 3. XX: Marking code (see Page. 3~4) 3 4. :athod and Suggested PD Layout SIZE DO-24(SM) (mm) (inch) 5.28.28.88 MX.52 MIN.74 MX.6 MIN D D.68 MIN.66 MIN Standard Packaging ase Type REEL ( pcs ) REEL PK Reel Size (inch) SM/DO-24 5, 3 Page 6