Small Signal Zener Diodes

BZT-G-Series Small Signal Zener Diodes PRIMARY CHARACTERISTICS PARAMETER ALUE UNIT FEATURES Silicon planar power Zener diodes The Zener voltages are graded according to the international E standard AEC-Q qualified ESD capability according to AEC-Q: Human body model > 8 k Machine model > 8 Base P/N-G - green, commercial grade Material categorization: For definitions of compliance please see www.vishay.com/doc?999 range nom.. to Test current T.; ma specification Int. construction Pulse current Single ORDERING INFORMATION DEICE NAME ORDERING CODE TAPED UNITS PER REEL MINIMUM ORDER QUANTITY BZT-G-series BZTC-G-8 to BZTC-G-8 BZTB-G-8 to BZTB-G-8 BZTC-G-8 to BZTC-G-8 BZTB-G-8 to BZTB-G-8 (8 mm tape on " reel) /box (8 mm tape on " reel) /box PACKAGE PACKAGE NAME WEIGHT MOLDING COMPOUND FLAMMABILITY RATING SOD- 9. mg UL 9 - MOISTURE SENSITIITY LEEL 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 ALUE UNIT Power dissipation Zener current Diode on ceramic substrate. mm; mm pad areas Diode on ceramic substrate. mm;. mm pad areas See Table Electrical Characteristics P tot mw P tot mw Thermal resistance junction to ambient air alid provided that electrodes are kept at ambient temperature R thja K/W Junction temperature C Storage temperature range T stg - 6 to + C Operating temperature range T op - to + C Rev.., -Feb- Document Number: 8 ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?9

BZT-G-Series ELECTRICAL CHARACTERISTICS (T amb = C, unless otherwise specified) PART NUMBER MARKING CODE ZENER OLTAGE RANGE () TEST CURRENT Notes T = ma, T = ma () Measured with pulses t p = ms () T =. ma () T =. ma () alid provided that electrodes are kept at ambient temperature REERSE OLTAGE DYNAMIC RESISTANCE TEMP. COEFFICIENT at T T T R at I R Z Z at T Z ZK at T Z T amb = at C ADMISSABLE ZENER CURRENT () ma na - / C ma MIN. NOM. MAX. BZTC-G Y...6-8 6-9 to - - - BZTC-G Y...9 - (< 8) < - 9 to - BZTC-G Y.8.. - 8 (< 9) < - 9 to - 98 8 BZTC-G Y... - 8 (< 9) < - 8 to - 9 9 BZTC6-G Y..6.8-8 (< 9) < - 8 to - 8 BZTC9-G Y6..9. - 8 (< 9) < - to - 9 BZTC-G Y..6-8 (< 9) < - 6 to - 8 BZTC-G Y8.. - (< 8) < - to + 6 6 BZTC-G Y9.8.. >.8 (< 6) < 8 - to + 6 6 BZTC6-G YA..6 6 > (< ) < - to + 6 9 BZTC6-G YB.8 6. 6.6 >.8 (< ) < - to + BZTC68-G YC 6. 6.8. >. (< 8) < + to + 9 BZTC-G YD..9 > (< ) < + to + BZTC8-G YE. 8. 8. > 6. (< ) < + to + BZTC9-G YF 8. 9. 9.6 >.8 (< ) < + to + 8 6 BZTC-G YG 9..6 >.. (< ) < + to + 8 8 BZTC-G YH..6 > 8. 6 (< ) < + to + 9 BZTC-G YI.. > 9 (< ) < 9 + 6 to + 9 8 BZTC-G YK.. > 9 (< ) < + to + 9 BZTC-G YL.8.6 > (< ) < + to + 9 9 BZTC6-G YM. 6. > (< ) < + 8 to + 9. BZTC8-G YN 6.8 8 9. > 8 (< ) < + 8 to + 9. 8 BZTC-G YO 8.8. > (< ) < + 8 to + BZTC-G YP.8. > (< ) < + 8 to + 6 BZTC-G YR.8.6 > 8 8 (< 8) < + 8 to + BZTC-G YS. 8.9 > (< 8) < + 8 to + BZTC-G YT 8 >. (< 8) < + 8 to + 9 BZTC-G YU > (< 8) < + 8 to + 8 9 BZTC6-G YW 6 8 > (< 9) < + 8 to + 8 9 BZTC9-G YX 9 > 9 (< 9) < + to + 8 BZTC-G YY 6 > 6 (< ) < + to + 6 BZTC-G YZ > (< ) < + to + 6 BZTC-G Z 8 > 8 (< ) < + to + 6 BZTC6-G Z 6 6. - < () < () typ. + () - - BZTC6-G Z 8 6 66. - < () < () typ. + () - - BZTC68-G Z 6 68. - < () < () typ. + () - - BZTC-G Z 9. - < () < () typ. + () - - at T amb = C Rev.., -Feb- Document Number: 8 ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?9

BZT-G-Series ELECTRICAL CHARACTERISTICS (T amb = C, unless otherwise specified) PART NUMBER MARKING CODE ZENER OLTAGE RANGE () TEST CURRENT Notes T = ma, T = ma () Measured with pulses t p = ms () T =. ma () T =. ma () alid provided that electrodes are kept at ambient temperature REERSE OLTAGE DYNAMIC RESISTANCE TEMP. COEFFICIENT at T T T R at I R Z Z at T Z ZK at T Z T amb = at C ADMISSABLE ZENER CURRENT () ma na - / C ma MIN. NOM. MAX. BZTB-G... - 8 6-9 to - - - BZTB-G.6.. - (< 8) < - 9 to - BZTB-G.9..6-8 (< 9) < - 9 to - 98 8 BZTB-G... - 8 (< 9) < - 8 to - 9 9 BZTB6-G..6.6-8 (< 9) < - 8 to - 8 BZTB9-G 6.8.9.98-8 (< 9) < - to - 9 BZTB-G...9-8 (< 9) < - 6 to - 8 BZTB-G 8.6..9 - (< 8) < - to + 6 6 BZTB-G 9.. >.8 (< 6) < 8 - to + 6 6 BZTB6-G A.9.6. > (< ) < - to + 6 9 BZTB6-G B 6.8 6. 6. >.8 (< ) < - to + BZTB68-G C 6.66 6.8 6.9 >. (< 8) < + to + 9 BZTB-G D...6 > (< ) < + to + BZTB8-G E 8. 8. 8.6 > 6. (< ) < + to + BZTB9-G F 8.9 9. 9.8 >.8 (< ) < + to + 8 6 BZTB-G G 9.8. >.. (< ) < + to + 8 8 BZTB-G H.8. > 8. 6 (< ) < + to + 9 BZTB-G I.8. > 9 (< ) < 9 + 6 to + 9 8 BZTB-G K.. > 9 (< ) < + to + 9 BZTB-G L.. > (< ) < + to + 9 9 BZTB6-G M. 6 6. > (< ) < + 8 to + 9. BZTB8-G N.6 8 8. > 8 (< ) < + 8 to + 9. 8 BZTB-G O 9.6. > (< ) < + 8 to + BZTB-G P.6. > (< ) < + 8 to + 6 BZTB-G R.. > 8 8 (< 8) < + 8 to + BZTB-G S 6.. > (< 8) < + 8 to + BZTB-G T 9..6 >. (< 8) < + 8 to + 9 BZTB-G U.. > (< 8) < + 8 to + 8 9 BZTB6-G W. 6 6. > (< 9) < + 8 to + 8 9 BZTB9-G X 8. 9 9.8 > 9 (< 9) < + to + 8 BZTB-G Y..9 > 6 (< ) < + to + 6 BZTB-G Z 6..9 > (< ) < + to + 6 BZTB-G U > 8 (< ) < + to + 6 BZTB6-G U.9 6.. - < () < () typ. + () - - BZTB6-G U 6.8 6 6.. - < () < () typ. + ( ) - - BZTB68-G U 66.6 68 69.. - < () < () typ. + () - - BZTB-G U. 6.. - < ()) < () typ. + () - - at T amb = C Rev.., -Feb- Document Number: 8 ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?9

BZT-G-Series TYPICAL CHARACTERISTICS (T amb = C, unless otherwise specified) I F ma - - - - - 8 T J = C T J = C...6.8 F Fig. - Forward Characteristics r zj T J = C 6.8/8. 6.. ma 89 Fig. - Dynamic Resistance vs. Zener Current 8 mw = C P tot R zj + 9 6 8888 C T amb. 8 ma Fig. - Admissible Power Dissipation vs. Ambient Temperature Fig. - Dynamic Resistance vs. Zener Current r zj T J = C..6...6. ma 8 Fig. - Dynamic Resistance vs. Zener Current R zth R zth = R tha x x negative positive 8 at = ma Fig. 6 - Thermal Differential Resistance vs. Zener oltage Rev.., -Feb- Document Number: 8 ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?9

BZT-G-Series R zj 8 = C = ma m/ C 8 6 = ma 6 8 86 at = ma Fig. - Dynamic Resistance vs. Zener oltage Fig. - Temperature Dependence of Zener oltage vs. Zener oltage m/ C ma = ma ma - 8 at = ma, I = ma Fig. 8 - Temperature Dependence of Zener oltage vs. Zener oltage 88 9 8 at = ma 6 6 = ma - 6 8 C Fig. - Change of Zener oltage vs. Junction Temperature.8..6..... at = ma. - -..6. 6 8 C 8 8 6..9.6.6....8.6 = r Zth x = ma >= 6 ; =. ma.. -. -. 89 Z at = ma Fig. 9 - Change of Zener oltage vs. Junction Temperature Fig. - Change of Zener oltage from Turn-on up to the Point of Thermal Equilibrium vs. Zener oltage Rev.., -Feb- Document Number: 8 ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?9

BZT-G-Series = r zth x l Z ma = C...9.6. 6.8 8. = ma =. ma Test current ma 6 8 86 at = ma Fig. - Change of Zener oltage from Turn-on up to the Point of Thermal Equilibrium vs. Zener oltage 6 8 9 8 Fig. - Breakdown Characteristics ma = C l Z 8 Test current ma 6 8 Fig. - Breakdown Characteristics 8 Fig. 6 - Breakdown Characteristics Rev.., -Feb- 6 Document Number: 8 ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?9

BZT-G-Series PACKAGE DIMENSIONS in millimeters (inches): SOD-. (.) (.9). (.) max.. (.8). (.8). (.) to 8. (.6). (.). (.) ref. Cathode bar Mounting Pad Layout.8 (.). (.).8 (.).8 (.).6 (.6). (.8).8 (.). (.). (.6). (.). (.98).8 (.) Rev. - Date:. Sep. 9 Document no.: S8--9.- () Rev.., -Feb- Document Number: 8 ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?9

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