RoHS Description The of transient voltage surge suppressors are radial leaded varistors (MOVs) designed for use in the protection of low and medium-voltage circuits and systems. Typical applications include motor control, telecom, automotive systems, solenoid, and power supply circuits to protect circuit board components and maintain data integrity. These devices are available in five model sizes: mm, 7mm, mm, 4mm and mm, and feature a wide V DC voltage range of.v to 6V. Agency Approvals Agency Agency File Number See Device Ratings and Specifications Table for part number and brand information. Features 3, (+ 796 for selected parts) 689 4-006 compliant option available. lease see the device and ratings specifications table for more information. range V M(AC)RMS 4V to 460V.V to 6V available:, 7,, 4, and mm hard-wired or printed circuit board designs form options 8ºC ambient Absolute Maximum Ratings Continuous Units Steady State Applied Voltage: AC Voltage Range (V M(AC)RMS ) 4 to 460 V DC Voltage Range (V M(DC) ). to 6 V Transients: TM ) μ to 60 A Single ulse nergy Range (Note ) μ TM ) 0. to J Operating Ambient Temperature Range (T A ) - to +8 ºC Storage Temperature Range (T STG ) - to + ºC Temperature Coefficient (a V ) of Clamping Voltage (V C ) at Specified Test Current <0.0 V 0 MΩ CAUTION: Stresses above those listed in "Absolute Maximum Ratings" may cause permanent damage to the device. This is a stress only rating and operation of the device at these or any other conditions above those indicated in the operational sections of this specification is not implied. 08 Littelfuse, Inc.
Ratings & Specifications Lead free and RoHS Compliant Models art Number art Number Standard Models Model Size Disc Dia. (mm) Maximum Rating (8 C) Continuous Transient V RMS V DC nergy x 0μs eak Current 8 x μs V M(AC) V M(DC) W TM I TM Specifications ( C) Varistor Voltage at ma DC Test Current V NOM V NOM Maximum Clamping Voltage 8 x μs Typical Capacitance f = MHz V C I K C Branding Branding Min Max (V) (V) (J) (A) (V) (V) (V) (A) (pf) V8ZA0 Z08 V8ZA0 Z08 4. 0. 6 30 00 V8ZA 08Z V8ZA 08Z 7 4. 0.4 6. 490 V8ZA 08Z V8ZA 08Z 4. 0.8 6 7000 VZA0 Z VZA0 Z 6 8 0.4 9 6 37 700 VZA Z VZA Z 7 6 8 0.6 9 6 34. 33 VZA Z VZA Z 6 8. 9 6 30 6 V8ZA0 Z8 V8ZA0 Z8 4 0.7 4.4.6 36 V8ZA 8Z V8ZA 8Z 7 4 0.8 4.4.6 36. 700 V8ZA 8Z V8ZA 8Z 4. 0 4.4.6 36 V8ZA3 8Z3 V8ZA3 8Z3 4 4 3. 0 4.4.6 36 8870 V8ZA40 8Z40 V8ZA40 8Z40 4 00 4.4.6 37 VZA0 Z VZA0 Z 4 8 0. 8.7 6 43 VZA Z VZA Z 7 4 8 0.9 8.7 6 43. 37 VZA Z VZA Z 4 8 0 8.7 6 43 40 VZA3 Z3 VZA3 Z3 4 4 8 4 0 8.7 6 43 4730 V4ZA 4Z V4ZA 4Z 4 ) 00 9. 6 43 8000 V7ZA0 Z7 V7ZA0 Z7 7 0. 3 3. 3 9 V7ZA 7Z V7ZA 7Z 7 7 3 3. 3. 87 V7ZA 7Z V7ZA 7Z 7. 0 3 3. 3 38 V7ZA4 7Z4 V7ZA4 7Z4 4 7 0 3 3. 3 480 V7ZA60 7Z60 V7ZA60 7Z60 7 ) 00 3) 3. 0 V33ZA0 Z33 V33ZA0 Z33 6 0.3 9. 38 6 790 V33ZA 33Z V33ZA 33Z 7 6. 9. 36. 6. 6 V33ZA 33Z V33ZA 33Z 6 3 0 9. 36. 6 349 V33ZA 33Z V33ZA 33Z 4 6 6 0 9. 36. 6 990 V33ZA70 33Z70 V33ZA70 33Z70 7 V36ZA80 36Z80 V36ZA80 36Z80 3 3 ) ) 00 00 9. 3) 36. 8 0 40 63 0 V39ZA0 Z39 V39ZA0 Z39 3 0.3 3 46 79 67 V39ZA 39Z V39ZA 39Z 7 3. 3 43 79. 3 V39ZA3 39Z3 V39ZA3 39Z3 3 3 0 3 43 76 3 V39ZA6 39Z6 V39ZA6 39Z6 4 3 7. 0 3 43 76 7000 V39ZA 39Z V39ZA 39Z 3 00 3 43 76 0 V47ZA0 Z47 V47ZA0 Z47 30 38 0.4 4 93 8 V47ZA 47Z V47ZA 47Z 7 30 38.8 4 93. 4 V47ZA3 47Z3 V47ZA3 47Z3 30 38 4. 0 4 93 90 V47ZA7 47Z7 V47ZA7 47Z7 4 30 38 8.8 0 4 93 670 V47ZA 47Z V47ZA 47Z 30 38 3 00 4 93 V6ZA0 Z6 V6ZA0 Z6 3 4 0. 66 0 V6ZA 6Z V6ZA 6Z 7 3 4.3 6. 3 V6ZA3 6Z3 V6ZA3 6Z3 3 4. 0 6 V6ZA8 6Z8 V6ZA8 6Z8 4 3 4 0 6 4840 V6ZA 6Z V6ZA 6Z 3 4 30 00 6 00 V68ZA0 Z68 V68ZA0 Z68 40 6 0.6 6 80 3 V68ZA 68Z V68ZA 68Z 7 40 6 3 6 7 3. 9 6 08 Littelfuse, Inc.
Ratings & Specifications (Continued...) Lead free and RoHS Compliant Models art Number art Number Standard Models Model Size Disc Dia. (mm) Maximum Rating (8 C) Continuous Transient V RMS V DC nergy x 0μs eak Current 8 x μs V M(AC) V M(DC) W TM I TM Specifications ( C) Varistor Voltage at ma DC Test Current V NOM V NOM Maximum Clamping Voltage 8 x μs Typical Capacitance f = MHz V C I K C Branding Branding Min Max (V) (V) (J) (A) (V) (V) (V) (A) (pf) V68ZA3 68Z3 V68ZA3 68Z3 40 6 6. 0 6 7 3 8 V68ZA 68Z V68ZA 68Z 4 40 6 3 0 6 7 3 3870 V68ZA 68Z V68ZA 68Z 40 6 33 00 6 7 3 9000 V8ZA0 Z8 V8ZA0 Z8 68 73 97 3 3 V8ZA 8Z V8ZA 8Z 7 68 4 73 9 3 700 V8ZA4 8Z4 V8ZA4 8Z4 68 8 73 9 3 48 V8ZA 8Z V8ZA 8Z 4 68 40 73 9 4 3380 VZA0 Z VZA0 Z 60 8. 90 7 6 3 VZA3 Z VZA3 Z 7 60 8 90 6 600 VZA4 Z4 VZA4 Z4 60 8 90 6 VZA Z VZA Z 4 60 8 40 90 7 900 VZA0 Z VZA0 Z 7 3 8 38 VZA Z VZA Z 7 7 6 8 3 VZA4 Z4 VZA4 Z4 7 8 3 0 VZA6 Z6 VZA6 Z6 4 7 40 8 3 4 VZA Z VZA Z 7 33 60 8 3 00 VZA0 Z VZA0 Z 9 7 4 3 73 90 VZA Z0 VZA Z0 7 9 7 8 3 6 460 VZA4 Z4 VZA4 Z4 9 7 3 6 860 VZA8 Z8 VZA8 Z8 4 9 7 40 3 6 9 VZA Z VZA Z 9 7 4 60 3 6 30 V80ZA0 Z80 V80ZA0 Z80 3 6 7 9 V80ZA 80Z V80ZA 80Z 7 3 6 98 3 V80ZA 80Z V80ZA 80Z 3 8 6 98 46 V80ZA 80Z V80ZA 80Z 4 3 3 40 6 98 90 V80ZA 80Z V80ZA 80Z 3 60 6 98 VZA0 Z VZA0 Z 30 70. 84 6 340 VZA0 Z VZA0 Z 40 80 6 98 3 360 9 V40ZA0 Z40 V40ZA0 Z40 0 7 6 64 39 90 V70ZA0 Z70 V70ZA0 Z70 7 7. 43 3 4 7 V330ZA0 Z330 V330ZA0 Z330 7 9 97 380 40 70 V360ZA0 Z360 V360ZA0 Z360 30 9. 34 396 9 60 V390ZA0 Z390 V390ZA0 Z390 330 3 449 6 80 V430ZA0 Z430 V430ZA0 Z430 7 369 387 49 7 7 V470ZA0 Z470 V470ZA0 Z470 38 4 7 77 70 V6ZA0 Z6 V6ZA0 Z6 38 3 8 68 4 V680ZA0 Z680 V680ZA0 Z680 4 60 4 6 748 40 V7ZA0 Z7 V7ZA0 Z7 440 8. 643 787 80 3 V7ZA0 Z7 V7ZA0 Z7 460 6 7 67 8 40 30 3. ma DC test current. 4. Also rated to withstand 4V for minutes. 08 Littelfuse, Inc. 7
ower Dissipation Ratings eak ulse Current Test Waveform RCNT OF RATD VALU 90 80 70 60 40 30 0-60 70 80 90 30 40 AMBINT TMRATUR ( o C) Figure Figure RCNT OF AK VALU 90 T O TT TIM Should transients occur in rapid succession, the average power dissipation required is simply the energy (watt-seconds) per pulse times the number of pulses per second. The power so developed must be within the specifications shown on the Device Ratings the operating values need to be derated at high temperatures as shown in the diagram above. Because varistors can only dissipate a relatively small amount of average power they are, therefore, not suitable for repetitive applications that involve substantial amounts of average power dissipation. 0 T = Rise Time =. x T T = Decay Time xample μ 8μs = T = Rise Time μs = T = Decay Time Maximum Clamping Voltage for mm arts V8ZA0() - V68ZA0() 600 0 0 MAX CLAMING VOLTAG MODL SIZ mm 8 TO 68V N(DC) RATING 90 V68ZA0() 80 70 V6ZA0() 60 V47ZA0() V39ZA0() 40 V33ZA0() V7ZA0() 30 VZA0() V8ZA0() VZA0() -3 V8ZA0() V360ZA0() - V7ZA0() - - 0 3 Figure 3 Figure 4 V8ZA0() - V33ZA0() 00 0 0 0 0.000 0.00 V330ZA0() V70ZA0() V40ZA0() VZA0() VZA0() V80ZA0() VZA0() VZA0() 0.0 0. 0 MAX CLAMING VOLTAG MODL SIZ mm 8 TO 330V N(DC) RATING VZA0() V8ZA0() 0 00 0 0 V7ZA0() V7ZA0() V680ZA0() V6ZA0() V470ZA0() V430ZA0() V390ZA0() V360ZA0() MAX CLAMING VOLTAG MODL SIZ mm 360 TO 7V N(DC) RATING Figure 0.000 0.00 0.0 0. 0 8 08 Littelfuse, Inc.
Maximum Clamping Voltage for 7mm arts V8ZA() - V68ZA() V8ZA() - V80ZA() 0 0 MODL SIZ 7mm 8 TO 68V N(DC) RATING 90 80 V68ZA() 70 V6ZA() 60 V47ZA() V39ZA() 40 V33ZA() V7ZA() 30 VZA() V8ZA() VZA() 4,000 3,000 900 800 700 600 0 0 MODL SIZ 7mm 8 TO 80V N(DC) RATING V80ZA() VZA() VZA() VZA3() V8ZA() V8ZA() -3 - - 0 3 Figure 6 Figure 7-3 - - 0 3 4 Maximum Clamping Voltage for mm arts V8ZA() - V68ZA3() V8ZA4() - V80ZA() 0 0 MODL SIZ mm 8 TO 68V N(DC) RATING 90 80 V68ZA3() 70 V6ZA3() 60 V47ZA3() V39ZA3() 40 V33ZA() V7ZA() 30 VZA() V8ZA() VZA() V8ZA() -3 - - 0 3 Figure 8 Figure 9 4,000 3,000 900 800 700 600 0 0-3 MODL SIZ mm 8 TO 80V N(DC) RATING V80ZA() VZA4() VZA4() VZA4() V8ZA4() - - 0 3 4 Maximum Clamping Voltage for 4mm arts V8ZA3() - V68ZA() V8ZA() - V80ZA() 600 0 MODL SIZ 4mm 8 TO 68V N(DC) RATING 4,000 3,000 MODL SIZ 4mm 8 TO 80V N(DC) RATING 0 90 80 V68ZA() 70 V6ZA8() 60 V47ZA7() V39ZA6() 40 V33ZA() V7ZA4() 30 VZA3() V8ZA3() -3 - - 0 3 Figure Figure 900 800 700 600 0 0-3 V80ZA() VZA8() VZA6() VZA() V8ZA() - - 0 3 4 08 Littelfuse, Inc. 9
Maximum Clamping Voltage for mm arts V8ZA40() - V36ZA80() V39ZA() - V80ZA() 0 90 80 70 60 40 30 MODL SIZ mm 8 TO 36V N(DC) RATING V36ZA80() V33ZA70() V7ZA60() V4ZA() V8ZA40() 0 0 MODL SIZ mm 39 TO 80V M(AC) RATING T A = - o C TO 8 o V80ZA() C VZA() VZA() V68ZA() V6ZA() V47ZA() V39ZA() -3 - - 0 3 4 Figure Figure 30-3 - - 0 3 4 Repetitive Surge Capability for mm arts V8ZA0() VZA0() - V68ZA0() 0. 3 4 6 MODL SIZ mm V8ZA0() 0. 3 4 6 MODL SIZ mm VZA0() - V68ZA0() 0. 0. 0. 0.,000,000 Figure 3 Figure 4 V8ZA0() - V7ZA0() 0 0 0. 3 4 MODL SIZ mm V8ZA0() - V7ZA0() 6 Figure 0.,000 30 08 Littelfuse, Inc.
Repetitive Surge Capability for 7mm arts V8ZA() - VZA() Repetitive Surge Capability for mm arts V8ZA() - V7ZA() 0 0. 3 4 6 MODL SIZ 7mm V8ZA() - VZA() 0 0 0. 3 4 6 MODL SIZ mm V8ZA() - VZA() 0.,000 Figure Figure 8 0.,000 V8ZA() - V68ZA() V8ZA() - V68ZA3() 0 0 3 4 6 MODL SIZ 7mm V8ZA() - V68ZA() 0 0 3 MODL SIZ mm V8ZA() - V68ZA3() 4 6 0. 0.,000 Figure 6 Figure 9,000 V8ZA() - V80ZA() V8ZA4() - V80ZA() 0 0 3 4 6 MODL SIZ 7mm V8ZA() - V80ZA(),000 0 0 3 4 6 MODL SIZ mm V8ZA4() - V80ZA(),000 Figure 7 Figure,000 08 Littelfuse, Inc. 3
Repetitive Surge Capability for 4mm arts V8ZA3() - V68ZA() V8ZA() - V80ZA() 0 0 3 MODL SIZ 4mm 4 V8ZA3() - V68ZA() 6,000 0 3 0 4 6 MODL SIZ 4mm V8ZA() - V80ZA(),000 Figure Figure,000 Repetitive Surge Capability for mm arts V8ZA40() - V68ZA() VZA() - V80ZA() 0 0 3 4 MODL SIZ mm V8ZA40() - V68ZA(),000,000,000 Figure 3 Figure 4 6 0 0 3 4 6 MODL SIZ mm VZA() - V80ZA(),000 in a decrease of V, may result in the device not meeting the original published specifications, but does not prevent the device from continuing to function, and to provide ample protection. 3 08 Littelfuse, Inc.
Wave Solder rofile Non Lead free rofile Lead free rofile Maximum Wave 40C Maximum Wave 60C TMRATUR (ºC) 0 TMRATUR (ºC) 0 0 0 0 0... 3 3. 4 0 0... 3 3. 4 Figure TIM(MINUTS) Figure 6 TIM(MINUTS) hysical Specifications nvironmental Specifications Lead Material Soldering Characteristics Method 8 Operating Ambient Temperature Range Storage Temperature Range - C to +8 C - C to + C Insulating Material Device Labeling Cured, flame retardant epoxy polymer and date code Humidity Aging Thermal Shock +8 C to -40 C times Solvent Resistance Moisture Sensitivity Varistors for Hi-Temperature Operating Conditions: 08 Littelfuse, Inc. 33
roduct Dimensions (mm) xample: Dimension V RMS Voltage Model Min. mm (in) mm Size 7mm Size mm Size 4mm Size mm Size Max. Min. Max. Min. Max. Min. Max. A All - (0.394) - (0.47) - 6 (0.630) - (0.787) -. ØD All - 7 (0.76) - 9 (0.34) - (0.49) e All 4 (0.7) 6 (0.36) 4 (0.7) 6 (0.36) 6. (0.6) 8. (0.33) 6. (0.6) 8. (0.33) e V8ZAV6ZA (0.039) V68ZAVZA. (0.09) VZAV80ZA (0.039) VZAV7ZA. (0.09) Min. Max. 6. (.043) - 7 (0.669) - 3 (0.906) 6. (0.6) 8. (0.33) 3 (0.8) (0.039) 3 (0.8) (0.039) 3 (0.8) (0.039) 3 (0.8) (0.039) 3 (0.8) 3. (0.38). (0.09) 3. (0.38). (0.09) 3. (0.38). (0.09) 3. (0.38). (0.09) 3. (0.38) 3 (0.8) (0.039) 3 (0.8) (0.039) 3 (0.8) (0.038) 3 (0.8) (0.038) 3 (0.8) 3. (0.38) - - - - - - - - V8ZAV6ZA - (0.97) - (0.97) - (0.97) - (0.97) - (0.97) V68ZAVZA -.6 (0.) -.6 (0.) -.6 (0.) -.6 (0.) -.6 (0.) VZAV80ZA - (0.97) - (0.97) - (0.97) - (0.97) - (0.97) VZAV7ZA - Øb All 0.8 (0.03) A All - L TRIM Standard Model V8ZA3 All.4 (0.09) CRIMD AND TRIMMD LAD Radial lead types can be supplied with combination preformed crimp and trimmed leads. This option is supplied to the dimensions shown..6 (0.) 0.68 (0.07) 3.0 (0.) 4.69 (0.8) Order As V8ZC3 - - - - - - - - 0.8 (0.03) 0.68 (0.07) 0.76 (0.030) - (0.9) -.4 (0.09) 4.69 (0.8).4 (0.09) 0.86 (0.034) 9. (0.768) 4.69 (0.8) 0.76 (0.030) -.4 (0.09) 0.86 (0.034). (0.886) 4.69 (0.8) 0.76 (0.030) -.4 (0.09) 0.86 (0.034) 9.0 (.4) 4.69 (0.8) 34 08 Littelfuse, Inc.
Tape and Reel Specifications and 7mm Devices, 4 and mm Devices D D D D H SATING LAN C H SATING LAN C H0 Db W0 W W H0 Db W0 W W W W DD0 0 F t DD0 F t D D D D H H H Db W0 W W H Db W0 W W W W DD0 DD0 F t 0 F t 0 D D D D H U H U Ho Db W0 W W Ho Db W0 W W W W DD0 DD0 0 F t 0 F t 08 Littelfuse, Inc. 3
Tape and Reel Specifications SYMBOL DSCRITION MODL SIZ mm 7mm mm 4mm mm itch of Component 0 F h Component Alignment.0 Max.0 Max.0 Max.0 Max.0 Max W W 0 W W 0. Max 0. Max 0. Max 0. Max 0. Max H Component Base H 0 H 9.0 Max 3.0 Max 36.0 Max 40.0 Max 46. Max D 0 t U 8.0 Max 8.0 Max 8.0 Max 8.0 Max 8.0 Max p Component Alignment 3 Max 3º Max 3 Max 3 Max 3 Max 36 08 Littelfuse, Inc.
art Numbering System BAS ART CODS (See Ratings & Specifications tables and notes below) OTION CODS (See notes below) V XXX ZA XX XXXXX For VARISTOR NOMINAL VOLTAG (V NOM ) (One, Two or Three Digits) SRIS + ACKAGING / LAD STYL DSIGNATOR (See BAS ART CODS notes below) ZA = Bulk ack / Straight Leads (standard) ZC = Bulk ack / Crimped and Trimmed Leads ZS = Tape and Reel / Straight Leads ZT = Tape and Reel / Crimped Leads ZU = Tape and Reel / Under-Crimped Leads RLATIV NRGY INDICATOR (One or Two Digits) See OTIONS CODS notes below : LAD-FR AND RoHS COMLIANT OTION BAS ART designator only. and lead space options), use BAS ART + OTION COD. OTION COD items are subject to availability and minimum order additional information or questions Ordering Notes: BAS ART CODS: OTION CODS: Series + ackaging / Lead Style Designators: Ordering examples: Straight Lead Bulk ack (standard) Straight Lead Tape & Reel Crimped Lead Tape & Reel Crimped & Trimmed Lead Bulk ack Under- Crimp Lead Tape & Reel V8ZA3 V8ZS3 V8ZT3 V8ZC3 V8ZU3 Crimped lead varistors are supplied standard in tape and reel, denoted with "ZT." "ZU" style is supplied in tape and reel only. X: diameter models only), append standard model Standard Model V8ZA40 Order As V8ZA40X X8: Barrier Coated wire is available as an option, consisting a top coating of Tin. To order append standard model Standard Model V8ZA40 Order As V8ZA40X8 Lead free / RoHS Designator: Standard Model V8ZA40 Standard Model with Option Order As V8ZA40 Order As V8ZA40 TA & RL QUANTITIS: sales representative to discuss non-standard options. Device Size Voltage Quantity er Reel "S" Reel "T" Reel "U" Reel mm All 0 0 0 7mm All 0 0 0 mm All 0 0 0 4mm < V 0 0 0 mm < V 0 0 08 Littelfuse, Inc. 37