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2N2324
SCR, 1.6A, 100V, TO-5
⚠️ Reference pricing provided. In case of supply shortages, we will connect you with our trusted procurement partners to ensure your project's continuity.
- Manufacturer: SOLID STATE
- Product type: Thyristors - SCRs
- Peak Repetitive O; SCR, 1.6A, 100V, TO-5; Peak Repetitive Off State Voltage:100V; Gate Trigger Current Max:200µA; Average On State Current:-; On State RMS Current:1.6A; Thyristor Case Style:TO-5; N
- MSL: -
- No. of Pins: 3Pins
| Delivery and price | |
|---|---|
| Units per pack | 25 |
| Price | 5.71 € |
| Current stock | 200+ |
| Lead time | 7 days |
Datasheet
| 2N2322A-28A
## 1.6A RMS Up to 400 Volts
The C5 Series of Silicon Controlled Rectifiers are reverse blocking thyristors for use in low power switching and control applications. They feature two ranges of gate sensitivity and high external gate-cathode shunting resistance. e All-diffused
- e Two ranges of gate sensitivity —2N2322-29—200uA max. & 2N2322A-28A—20uA max.
e Low holding current
e Broad voltage range
||MAXIMUM|ALLOWABLE|ALLOWABLE|ALLOWABLE|RATINGS|RATINGS||
|---|---|---|---|---|---|---|---|
|Se<br>REPETITIVE PEAK<br>pre<br>a<br>- SOFF-STATE. VOLTAGE, Vor<br>.<br>Pog<br>TYPES<br>te<br>[oo<br>i Te=65°C to+125°C<br>—____—<br>LRG<br>= 1000-OHMS (2N2322-29)<br>ee<br>“£2000OHMS (2N2322A-28A)|||.<br>REPETITIVE PEAK<br>.<br>REVERSEVOLTAGE, Vara<br>To = —65°C to +125°C||||os<br>/NON-REPETITIVE PEAK<br>“REVERSE VOLTAGE,<br>=e<br>**o**<br>Vrs<br>-<br>(S10 -Millisec.):<br>Te = —68°C to +125°C|
|2N2322|C5U<br>25V.*||||25V.*||40V.*|
|2N2322A|—<br>25V.*||||25V.*||40V.*|
|2N2323|C5F<br>50V.*||||50V.*||T5V.*|
|2N2323A|—<br>50V.*||||50V.*||75V.*|
|2N2324|C5A<br>100V.*||||100V.*||150V.*|
|2N2324A|—<br>100V.*||||100V.*||150V.*|
|2N2325|C5G<br>150V.*||||150V.*||225V.*|
|2N2325A<br>2N2326|—_—<br>150V.*<br>C5B<br>200V.*||||150V.*<br>200V.*||225V.*<br>300V.*|
|2N2326A|—<br>200V.*||||200V.*||300V.*|
|2N2327|C5H<br>250V.*||||250V.*||350V.*|
|2N2327A<br>2N2328|—_—<br>250V.*<br>C5C<br>300V.*||||250V.*<br>300V.*||350V.*<br>400V.*|
|2N2328A<br>2N2329|—<br>300V.*<br>C5D<br>400V.*||||300V.*<br>400V.*||400V.*<br>500V.*|
|Peak Positive|Anode Voltage, PFV...... 6...||||ee<br>ee... 500 Volts|||
|RMS On-State|Current, Inpys). 0-0-0|ee||eee<br>ses. ....||1.6|Amperes (all conduction angles)|
|Average On-State Current, Injay).....-............- Depends|||||on conduction||angle (see Charts 2, 3, 5 and 6)|
|Critical Rate-of-Rise of On-State Current, di/dt:||||||||
|Gate Triggered Operation, Switching from Rated Voltage..............|||||||....50 Amperes per microsecond|
|Peak One Cycle Surge (non-rep) On-State Current, Iggy...||||...|Soe|eee eee tees e........15<br>Amperes*||
|I?t (for fusing), for times 2 1.5 milliseconds.........................................0.5 Ampere?seconds||||||||
|Peak Gate Power Dissipation,<br>Pgy......2-02.||||||eee eee... 0.1<br>Watts*||
|Average Gate|Power Dissipation, Pgay)... 02.|||||ee ee eee... .0.01<br>Watts*||
|Peak Positive|Gate Current, Igy... 0.||eee<br>eeeee .... 0.1 Amperes*|||||
|Peak Positive|Gate Voltage, Vey...||||eee<br>eee... ..6 Volts*|||
|Peak Negative|Gate Voltage, Vey...||||eee...<br>.6 Volts*|||
|Storage Temperature, Type...|||||eee.<br>=65°C to +150°C*|||
|Operating Temperature,<br>T;....00. 0000|||||||eee<br>=65°C to +125°C*|
|*Indicatesdata|includedonJEDECtypenumberregistration|||||||
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C5 SERIES<br>**----- End of picture text -----**<br>
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CHARACTERISTICS<br>GNA 9<br>PEAK REVERSE or|Ipn, | ||| #A | Vier = Vora = Rated.<br>OFF -STATE 2.0 | 10.0 To = +25°C, Rox = 1000 Ohms 2N2322-29 (C5 Series)<br>CURRENT| * = 2000 Ohms 2N2322A-28A<br>All Types Ton 40 | 100* Ty = +125°C, Rex = 1000 Ohms 2N2322-29 (C5 Series)<br>= 2000 Ohms 2N2322A-28A<br>GATE TRIGGER Igy nAdc<br>CURRENT<br>2N2322-29 10 | 200 To = +25°C, Vy = 6Vde, Ry = 100 Ohms<br>(C5 Series) Rex = 1000 Ohms<br>2N2322A-28A 2 20 To = +25°C, V), = 6Vde, Ry = 100 Ohms<br>Rex = 2000 Ohms<br>2N2322-29 20.0 350* Ty = —65°C, Vp = 6Vde, Ry = 100 Ohms<br>(C5 Series) Rex = 1000 Ohms<br>2N2322A-28A 10 75* To = —65°C, Vp = 6Vde, Ry, = 100 Ohms<br>GATE TRIGGER Vor Vde<br>VOLTAGE<br>2N2322-29 0.35 | 0.5 To = +25°C, V,, = 6Vdc, R;, = 100 Ohms<br>(C5 Series) Rex = 1000 Ohms<br>2N2322A-28A 0.35 0.4 Tyo = +25°C, Vy, = 6Vdce, Ry, = 100 Ohms<br>Rex = 2000 Ohms<br>2N2322-29 0.7 1.0* Ty = —65°C, V) = 6Vde, Ry = 100 Ohms<br>(C5 Series) Rex = 1000 Ohms<br>2N2322A-28A 0.9* To = —65°C, Vp = 6Vde, Ry, = 100 Ohms<br>Rex = 2000 Ohms<br>2N2322-29 0.1*| 0.25 0.5 Ty = +125°C, Vpy = Rated Vppy Value<br>(C5 Series) Rex = 1000 Ohms, Ry = 100 Ohms<br>2N2322A-28A 0.1* Te = +125°C, Vp, = Rated Vpry Value<br>Rex = 2000 Ohms, R,, = 100 Ohms<br>PEAK ON-STATE Vow 2.0 2.2 Vv Te = +25°C, Iq. = 4.0A, Single Half Sine<br>VOLTAGE Wave Pulse, 2.0 Millisec. Wide<br>All Types 1.9 2.0* Te. = +85°C, Ipiay) = 1.0A, Half Sine Wave,<br>60 Hz, 180° Conduction Angle<br>HOLDING ly mAdc | Rex = 1000 Ohms 2N2322-29 (C5 Series)<br>CURRENT = 2000 Ohms 2N2322A-28A<br>All Types | — | 1.0] 2.0 | Te = +25°C, Ry, = 10K<br>All Types | — | 15] 3.0% To = —65°C, Ry = 10K<br>2N2322-29 | 0.15*| 0.4 | — | To = +125°C, Ry = 50K<br>2N2322A-28A | [0.10*|] 0.4 | — |<br>TURN-ON TIME ta +t, 1.4 usec | To = +25°C, Ip = 1.0A, Vpy = Rated Vprpy Value,<br>All Types Gate Supply: 6 Volt Open Circuit, 330 Ohm<br>Load Line, 0.1 usec. Rise Time, 5 usec. Min.<br>Pulse Width.<br>CIRCUIT- ta usec | To = +125°C, Iq, = 1.0A Peak.<br>COMMUTATED Rectangular current pulse, 50 usec duration. Rate of<br>TURN-OFF TIME rise of current <10 amperes/usec. Commutation rate<br>All Types <5 amperes/usec. Peak reverse voltage = rated Vary<br>. volts max. Reverse voltage at end of turn-off time<br>interval = 15V. Repetition rate = 60 pps. Rate of<br>rise of re-applied off-state voltage (dv/dt) = 20V/<br>usec. Off-state voltage = rated Vp, volts. Gate bias<br>during turn-off time interval = 0 volts, 100 ohms.<br>**----- End of picture text -----**<br>
*Indicates data included on JEDEC type number registration
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EEE EEE<br>eeJ | [|] ee<br>LIAL| YALL eeeSS| | | | | | az<br>| AGREE 2SS bate,<br>: es] -_ASS<br>2, Bot | ol eof TT ea<br>z oe IA tot oot ot 3 70 |} —NOTE : (1) RESISTIVE OR novbrive vino so TO 400 Hz. | |<br>= rtiie tft ttt i ty ° 60 ae ee DERIVED FOR 0.0! WATT AVERAGE GATE POWER. | |<br>: =e — a<br>2.00 tt TT TT | tT AVERAGE ON-STATE CURRENT - AMPERES ns e<br>P+ 4 ot 2. MAXIMUM ALLOWABLE CASE TEMPERATUPE FOR<br>Saaacnnnne SINUSOIDAL CURRENT WAVEFORM<br>PERE 24 PEER EEE‘ EEE<br>sameina stast _Sun0i7| Y Oe400<br>a : ON-STATE CHARACTERISTICS 3 | uy . 7 f<br>V<br>i .H+ oles (1) RESISTIVE OR INDUCTIVE LOAD,Ol, WATT 50 TO 400Hz.AVERAGE ° “| La Hebe ee<br>=<br>ona NNCEEhe PELE tbr, |ePPL<br>beleee<br>PARR =° Z| L,<br>Se CENRRSKEEEEEEECEEEEE WI |<br>gL= 60 INNSANAS rT tt ttt ty w || [Ver] Y |<br>“eee<br>EEAENEEES) =a ° HEE* AVERAGE ON-STATE CURRENT-AMPERESQUENCY 50 TO4 400 '6<br>3 ry eBndverion ar Py TT ye<br>: oll. ANGLE JITITTTE rT rt i 4. MAXIMUM ON-STATE POWER DISSIPATION FOR<br>'50<br>3. . MAXIMUM anonLLO ON-STATE CURRENT AMPERES. SINUSOIDAL CURRENT WAVEFORM<br>- ii} iiiCe|<br>SINUSOIDAL CURRENT WAVEFORM ° o NL++i| NOTES: tliit(I) RESISTIVE OR INDUCTIVE LOAD, 50 TO 40AGE<br>NS<br>130120=nTi TtTeEtt ttt tt ? nolL ® (2) RATINGS DERIVED FOR 0.0! WATTS AVER<br>SESS<br>& SS<br>© 110BSS e 100 | Nw GATE _POWER DISSIPATION.<br>‘ WSISSES<br>: 100HH-PNNSSE REE 90EaWN AA t/T= DUTY CYCLE<br>Be NRRL EEE CONS Fe<br>jeSa SSSEN\\CEEEEEEEe<br>. 1 Wy RESISTIVE OR INDUCTIVE LOAD, 50 TO 400 Hz a SEATING<br>: “LE ECIT “ YA_VA_ WT=DUTY CYCLE 40PT tT TT VASAT EET<br>= “T | < || ‘i NY<br>sotFeseciigicuteETT TTL. asses Me3 30 SueeecohtSRNR Scag<br>EET UE ET Coresoti t ttt ttrTtt ttt |<br>nT AMBIEAIT TEeApe<br>5. ; MAXIMUM nitowWABLEON-STATE.CAS CURR E NT.TEMPERATUREAMPERES i FOR6 6. ; MAXI° MUM*ALLavennce oO - -. - °8 or<br>RECTANGULAR CURRENT WAVEFORM RECTANGULAR CURRENT WAVEFORM Ye FOR<br>**----- End of picture text -----**<br>
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C5 SERIES<br>2.0<br>; rT fr Tit tt ttt ty] NOTES: (1) SHADED area REPRESENTS<br>eZ | |omen VAY| | | | tt | SA ENNNASN A<br>Eos TT TIL VaVeetAZ = NNNCRAARANRAARNGY £29°E<br>E || | Aa | tt titi| | || s 06R&SNSN weesALL ore,UNITS |PTt t tL T E yyT<br>4 VA NOTES:(1) JUNCTION TEMPERATURE =125°C. & RENAN | rT iT tet tt<br>wi 2B 04 NAANAANA I<br>AVERAGE ON-STATE CURRENT-AMPERES , i. e ° ptt tA _— Pt py<br>7. MAXIMUM ON-STATE POWER DISSIPATION FOR ° titYi {|FiTtTtTtttt ttt<br>RECTANGULAR CURRENT WAVEFORM INSTANTANEOUS GATE CURRENT tig) ~ wicROAMPERES<br>8. 3N2322.29- (cs5 SERSERIE ONLYNLY FOR<br>1.4 13<br>NOTES(N) 7 5<br>12 (3)6.0 VOLTS DC ANODE -TO-CATHODE. tl VEE Et EEE EEE EE EL<br>= 2000 OHMS LOOKING<br>INTO SUPPLY FROM TEST UNIT TERMINALS. 1.0: PY | | | tty tty ttPi<br>|| {4) GATE SUPPLY IMPEDANCE<br>n<br>2<br>if 10| | | MINIMUM GATE cuRnENT ReaD TO TRIGGER 0.9 Att TTT TET tTt | | yt<br>4 | | CN|| ALL UNITS AT: +25°C -65°C*— -65°C wo on. EN| Pale(2) JUNCTION TEMPERATUREcee= 25°C.<br>2 ENANANN NIA |voutase REOD 8 ® o6 [Ne _ Pt; Tet Ty yy<br>MENSA6h See<br>gE3. SAW. zs ATT TLTPTILLLIitifit<br>LANA are B 204<br>MENNNSNS PSC APEETE<br>ANNAN PTX ETE EEE TE EET<br>21 RRA e LLIN<br>NSNNNN<br>.E NSS wRLTT [owte tren currene] |<br>RSS ese) EEE EEEEE<br>sod LLLWT tra bed oa @ 16 20 24 28 a<br>“WOO 80 -60 -40 -20 0 +20 +40 +60 +80 +100 10. TYPICAL GATE TRIGGER CURRENT AND VOLT<br>FOR 2N2322A-28A ONLY<br>ra CQ) JUN N TO AMBI c :<br>ICC NSS a<br>Seams ™ "<br>en a z 20 NESSES AXIMUM AT -65*C<br>PCCMedOeIACSatT_ LIL?ds “i NOS gaia<br>Poon ef ERR<br>pete<br>& [«] | [Tee pee | eeetory $TLPTSNPSone ae<br>a<br>Cectccorcticcricery = # t-te [cS]<br>THIELE “Leta (Gsté‘i‘=<: |Nis<br>000111. MAXIMUM0.01 TRANSIENTanIME IN SECONDSTHERMAL1.0 IMPEDANCE10.0 100 12. MAXIMUM100 200AND500o' =|MINIMUM1000 2000 DOHOLDINGBile,- 5000CURRENT 54000<br>VARIATION WITH EXTERNAL GATE-TO-CATHODE<br>RESISTANCE FOR 2N2322-29 (C5 SERIES) ONLY<br>**----- End of picture text -----**<br>
C5 SERIES |
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18 '<br>i (tae Td<br>4 KN | NOTES (1) AT RATED LOAD CONDITIONS. 100 SSS<br>UNS | SS<br>Fa 12 Q wy 80 aN BaSi<br>ow = 3 :<br>aee ee NGGli<br>: eo NHN<br>dqeS ee eee|| |||<br>edOo a OO “5 TTN ENTN<br>2 | ~ 20 \. SJ<br>a a TTI TEU<br>I 2 4 6 8 10 20 40 60 Q a<br>1000 2000 5000 10,000 20000 50,000 100,000<br>13. MAXIMUM ALLOWABLECYCLES AT 60SURGEHz 14. TYPICAL BREAKOVERGATE TO CATHODEVOLTAGERESISTANCE-OHMSVARIATION: . WITH<br>(NON-REPETITIVE) ON-STATE CURRENT EXTERNAL GATE-TO-CATHODE RESISTANCE<br>2N2322-29 (C5 SERIES) ONLY ;<br>360 l0—<<br>“TSRELL<br>KEEES TO] J [See][7]<br>- EEE CUD DSRES rr<br>PoAKEP EEE EET<br>a TAN ET<br>SIRENS 2 eee<br>Pot EEEEN= KLEbed||ONNN<br>pti tT TT Pe Eee EEN<br>Oo Lal<br>120 J 3 oa —+—— [= KL<br>PiE dE EE LE es NT<br>Pie 40 EE EE EE Lee| | Pe<br>°seaet || 0.20.Ine eeeP<br>TOPPER EE ECC<br>40°60. -40.~--20.~O 20.~«40 60 80 100 120 060-4020 20. +40 60 80 100 120<br>JUNCTION TEMPERATURE- °C JUNCTION TEMPERATURE- °C<br>15. VARIATION OF GATE TRIGGER CURRENT WITH 16. VARIATION OF GATE TRIGGER VOLTAGE WITH<br>TEMPERATURE FOR 2N2322-29 (C5 SERIES) ONLY TEMPERATURE FOR 2N2322-29 (C5 SERIES) ONLY<br>**----- End of picture text -----**<br>
## PACKAGING DATA
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JEDEC TO-5 OUTLINE<br>tipSEATING PLANE Cy of Tab $5° TP023<br>| .wSot> ]<br>of 24 | 026<br>“3p, 007 R MAX xT |<br>| OIA ——<—=———— Ti3 335<br>orm: ; dL»: ‘916019 DIA ‘3 leads)<br>PIN CONNECTIONS<br>1. Cathode<br>2. Gate<br>3. Anode (connected to case)<br>**----- End of picture text -----**<br>
Updated at March 9, 2026
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