.SMC SERIES GLASS PASSIVATED JUNCTIN TRANSIENT VLTAGE SUPPRESSR PEAK PULSE PWER Watts BREAK DWN VLTAGE. to Volts FEATURES Plastic package has Underwriters Laboratory Flammability Classification V- Glass passivated chip junction in SMC/D-AB package W surge capability at.ms Excellent clamping capability Low zener impedance Fast response time: typically less than. ps from volts to BV min Typical IR less than µa above V High temperature soldering guaranteed: C/ seconds/.",(.mm) lead length/lbs., (.kg) tension In compliance with EU RoHS //EC directives MECHANICAL DATA Case: JEDEC SMC/D-AB molded plastic Terminals: Axial leads, solderable per MIL-STD-, Method Polarity: Color band denoted cathode except Bipolar Mounting Position: Any Weight:. ounce,. gram DEVICES FR BIPLAR APPLICATINS For Bidirectional use C or CA Suffix for types.smc. thru types.smc. Electrical characteristics apply in both directions. MAXIMUM RATINGS AND CHARACTERISTICS Rating at Cambient temperature unless otherwise specified. Rating Symbol Value Units Peak Power Dissipation at T = C, T A P = ms(note ) P K P Watts Typical Thermal Resistance Junction to Air (Note ) Peak Forward Surge Current,.ms Single Half Sine-Wave Superimposed on Rated Load (JECED Method) (Note ) I R θja C / W F S M Amps perating Junction and Storage Temperature Range T J,T TG S to + - C NTES:. Non-repetitive current pulse, per Fig. and derated above T A = C per Fig... Mounted on Copper Leaf area of. in (mm )...ms single half sine-wave, duty cycle= pulses per minutes maximum. STAD-APR.. PAGE.
.SMC SERIES Part Number V RWM V BR @ IT IR @VRWM M in. Max. IT U N I- U N I- V V V m A µ A µ A V A U N I- W Transient Voltage Suppressor VC @IPP Marking Code.SMC..SMC.C.... FZA.SMC.A.SMC.CA.... FZB.SMC..SMC.C.... FZC.SMC.A.SMC.CA.... FZD.SMC..SMC.C.... FZE.SMC.A.SMC.CA.... FZF.SMC..SMC.C... FZG.SMC.A.SMC.CA.... FZH.SMC.SMCC. FZJ.SMCA.SMCCA.... FZK.SMC.SMCC.... FZL.SMCA.SMCC A.... FZM.SMC.SMCC.... FZN.SMCA.SMCCA.... FZP.SMC.SMCC... FZQ.SMCA.SMCCA.... FZR.SMC.SMCC... FZS.SMCA.SMCCA.... FZT.SMC.SMCC.... FZU.SMCA.SMCCA.... FZV.SMC.SMCC..... FZW.SMCA.SMCCA..... FZX.SMC.SMCC... FZY.SMCA.SMCCA.. FZZ.SMC.SMCC.... FXA.SMCA.SMCCA.... FXB.SMC.SMCC.... FXC.SMCA.SMCCA.... FXD.SMC.SMCC..... FXE.SMCA.SMCCA.... FXF.SMC.SMCC... FXG.SMCA.SMCCA.... FXH.SMC.SMCC..... FXJ.SMCA.SMCCA.... FXK.SMC.SMCC... FXL.SMCA.SMCCA.... FXM.SMC.SMCC..... FXN.SMCA.SMCCA... FXP.SMC.SMCC.... FXQ JZA JZB JZC JZD JZE JZF JZG JZH JZJ JZK JZL JZM JZN JZP JZQ JZR JZS JZT JZU JZV JZW JZX JZY JZZ JXA JXB JXC JXD JXE JXF JXG JXH JXJ JXK JXL JXM JXN JXP JXQ STAD-APR.. PAGE.
.SMC SERIES Part Number V RWM V BR @ IT IR @VRWM M in. Max. IT U N I- U N I- V V V m A µ A µ A V A U N I- W Transient Voltage Suppressor VC @IPP Marking Code.SMCA.SMCCA..... FXR.SMC.SMCC..... FXS.SMCA.SMCCA..... FXT.SMC.SMCC..... FXU.SMCA.SMCCA..... FXV.SMC.SMCC..... FXW.SMCA.SMCCA.... FXX.SMC.SMCC.... FXY.SMCA.SMCCA... FXZ.SMC.SMCC.... FYA.SMCA.SMCCA.... FYB.SMC.SMCC.... FYC.SMCA.SMCCA.... FYD.SMC.SMCC.... FYE.SMCA.SMCCA.... FYF.SMC.SMCC... FYG.SMCA.SMCCA... FYH.SMC.SMCC. FYJ.SMCA.SMCCA. FYK.SMC.SMCC.. FYL.SMCA.SMCC A. FYM.SMC.SMCC.. FYN.SMCA.SMCCA. FYP.SMC.SMCC FYQ.SMCA.SMCCA. FYR.SMC.SMCC FYS.SMCA.SMCCA. FYT.SMC.SMCC. FYU.SMCA.SMCCA. FYV.SMC.SMCC. FYW.SMCA.SMCCA. FYX.SMC.SMCC. FYY.SMCA.SMCCA. FYZ.SMC.SMCC. FWA.SMCA.SMCCA. FWB.SMC.SMCC. FWC.SMCA.SMCCA. FWD.SMC.SMCC. FWE.SMCA.SMCCA. FWF JXR JXS JXT JXU JXV JXW JXX JXY JXZ JYA JYB JYC JYD JYE JYF JYG JYH JYJ JYK JYL JYM JYN JYP JYQ JYR JYS JYT JYU JYV JYW JYX JYY JYZ JWA JWB JWC JWD JWE JWF STAD-APR.. PAGE.
.SMC SERIES P,PEAK PULSE FRWARD,KW PPM.... Non-Repetitve Pulse Wavefom Shown in Figure. T A = C PEAK PULSE FRWARD (P ) R CURRENT (I ) DERATING IN PERCENTAGE % PP PP td,pulse WIDTH,usec T A,AMBIENT TEMPERATURE, C Fig. PEAK PULSE PWER RATING VERSUS PULSE TIME CURVE Fig. PULSE DERATING CURVE I,PEAK PULSE CURRENT,% PPM tf= se c td Pea k Va lue Ip p m u Ha lf Va lue -Ip p TA =C Pulse Width (td) is Defined as the Point Where the Peak CurrentDecaysto%ofIpp / sec Waveform as Defined bye R.E.A..... u e-kt CJ,CAPACITANCE,pF, Unidirectional Bidirectional Measured a t Stand-ff Vo lta ge (V RWM ) Tj = C f=.mhz Vsig= mvp -p Measured a t Zero Bia s. T,TIME,ms V(BR), BREAKDWN VLTAGE, VLTS Fig. PULSE WAVEFRM Fig. TYPICAL JUNCTIN CAPACITANCE I, PEAK FRWARD SURGE CURRENT AMPERES FSM UNIDIRECTINAL NLY Tj = Tj m a x.ms SINGLE HALF since-wave JEDEC METHD NUM BER F CYC LES AT Hz Fig. MAXIMUN NN-REPETITEVE PEAK FRWARD SURGE CURRENT UNIDIRECTINAL STAD-APR.. PAGE.
.SMC SERIES MUNTING PAD LAYUT RDER INFRMATIN Packing information T/R - K per " plastic Reel T/R -.Kper plastic Reel LEGAL STATEMENT Copyright PanJit International, Inc The information presented in this document is believed to be accurate and reliable. The specifications and information herein are subject to change without notice. Pan Jit makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose. Pan Jit products are not authorized for use in life support devices or systems. Pan Jit does not convey any license under its patent rights or rights of others. STAD-APR.. PAGE.