ZPYV9 to ZPY Zener Diodes PRIMARY CHARACTERISTICS PARAMETER VALUE UNIT FEATURES Silicon planar power Zener diodes For use in stabilizing and clipping circuits with high power rating The Zener voltages are graded according to the international E standard. Smaller voltage tolerances are available upon request These diodes are also available in the MELF case with the type designation ZMYV9 to ZMY Compliant to RoHS Directive /9/EC and in accordance to WEEE /96/EC Halogen-free according to IEC 69-- definition V Z range nom..9 to V Test current T to V Z specification Int. construction Pulse current Single ORDERING INFORMATION DEVICE NAME ORDERING CODE TAPED UNITS PER REEL MINIMUM ORDER QUANTITY ZPYV9 to ZPY ZPYV9 to ZPY-series-TR ( mm tape on " reel) /box ZPYV9 to ZPY ZPYV9 to ZPY-series-TAP per ammopack ( mm tape) /box PACKAGE PACKAGE NAME WEIGHT MOLDING COMPOUND FLAMMABILITY RATING DO- mg UL 9 V- MOISTURE SENSITIVITY LEVEL MSL level (according J-STD-) SOLDERING CONDITIONS 6 C/ s at terminals ABSOLUTE MAXIMUM RATINGS (T amb = C, unless otherwise specified) PARAMETER TEST CONDITION SYMBOL VALUE UNIT Power dissipation Zener current Valid provided that leads at a distance of mm from case are kept at ambient temperature See table Caharacteristics P tot mw Junction to ambient air Valid provided that leads at a distance of mm from case are kept at ambient temperature R thja K/W Junction temperature T j C Storage temperature range T stg - to + C Rev..9, -Nov- Document Number: 89 ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?9
ZPYV9 to ZPY ELECTRICAL CHARACTERISTICS (T amb = C, unless otherwise specified) Notes () Valid provided that leads are kept at ambient temperature at a distance of mm from case () Tested with pulses t p = ms ZENER VOLTAGE RANGE () TEST CURRENT REVERSE VOLTAGE DYNAMIC RESISTANCE f = khz ADMISSIBLE ZENER CURRENT () TEMPERATURE COEFFICIENT OF ZENER VOLTAGE PART NUMBER V Z at T T V R at I R Z Z at T TC VZ at T V V μa - / C MIN. NOM. MAX. TYP. MIN. MAX. ZPYV9..9. -. (< ) 9 - ZPYV..6 -. (< ) 6 - ZPYV.. -. (< ) - ZPYV.8.. >.. (< ) - 6 ZPYV6..6 6 >.. (< ) 9 - ZPY6V.8 6. 6.6 >.. (< ) 8-6 ZPY6V8 6. 6.8. >.. (< ) ZPYV..9 >.. (< ) ZPY8V. 8. 8. > 6.. (< ) 8 ZPY9V 8. 9. 9.6 >.. (< ) 8 ZPY 9..6 >.. (< ) 9 ZPY..6 > 8.. (< ) 9 ZPY.. > 9.. (< ) 8 ZPY.. >. (< 9) 8 ZPY.8.8 >. (< 9) ZPY6. 6. >. (< ) 6 ZPY8 6.8 8 9. >. (< ) ZPY 8.8. >. 6 (< ) ZPY.8. >. (< ) 8 ZPY.8.6 > 8. 8 (< ) ZPY. 8.9 >. 9 (< ) 8 ZPY 8 >.. (< ) ZPY >. (< ) ZPY6 6 8 >. (< 6) 9 ZPY9 9 > 9. (< 6) 6 8 ZPY 6 >. (< 8) 8 ZPY >. (< 8) 8 ZPY 8 > 8. (< ) 8 ZPY6 6 6 >. (< ) 8 8 ZPY6 8 6 66 >. 6 (< ) 6 8 ZPY68 6 68 >. 6 (< ) 8 ZPY 9 > 6. (< 6) 8 ZPY8 8 88 > 6. 8 (< 6) 8 ZPY9 8 9 96 > 68. (< ) 9 ZPY 9 6 >. (< ) 9 Rev..9, -Nov- Document Number: 89 ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?9
ZPYV9 to ZPY BASIC CHARACTERISTICS (T amb = C, unless otherwise specified) P tot W ZPY ZPY8 ZPY68 ZPY6 ZPY C T amb gzpy_. gzpy_ Fig. - Admissible Power Dissipation vs. Ambient Temperature Fig. - Dynamic Resistance vs. Zener Current r tha C/W.... t P t v = P. T P I T. - - - - - s ZPY ZPY6 ZPY ZPY ZPY ZPY8 t P gzpy_ gzpy_8 Fig. - Pulse Thermal Resistance vs. Pulse Duration Fig. - Dynamic Resistance vs. Zener Current ZPY. ZPY8 ZPY ZPY. ZPY6. ZPY ZPY ZPY. Fig. - Dynamic Resistance vs. Zener Current gzpy_6 R tha C/W l l mm lead length l gzpy_9 Fig. 6 - Thermal Resistance vs. Lead Length Rev..9, -Nov- Document Number: 89 ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?9
ZPYV9 to ZPY ZPY.9 ZPY. ZPY.6 T j = C ZPY6 Tj = C 6 8 ZPY6.8 ZPY8. ZPY ZPY ZPY68 ZPY8 ZPY 6 8 9 V V gzpy_ Z V V gzpy_ Z Fig. - Breakdown Characteristics Fig. 9 - Breakdown Characteristics 6 ZPY ZPY8 T j = C ZPY ZPY ZPY ZPY9 ZPY V V Z gzpy_ Fig. 8 - Breakdown Characteristics PACKAGE DIMENSIONS in millimeters (inches): DO- Cathode identification.86 (.) max. 6 (.) min.. (.6) max. 6 (.) min..6 (.) max. 9 968 Rev..9, -Nov- Document Number: 89 ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?9
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