MA MA Series Silicon planer e For stabilization of power supply ø.56. Unit : mm Features Color indication of VZ rank classification High reliability because of combination of a planer chip and glass seal 4. Large power dissipation : P D = 5mW (With a printed-circuit board) Wide voltage range : V Z =. to 9V Easy to use because of fine classification of voltage ranks : L, M, st Band nd Band rd Band 4.5. and H ranks Sharp rising performance 4. Absolute Maximum Ratings (Ta= 5 C) Parameter Average forward current Repetitive peak forward current Total power dissipation Non-repetitive reverse surge power dissipation Junction temperature Storage temperature * With a printed-circuit board * t=µ s, T j =5 C Symbol I F(AV) I FRM P tot * P ZSM * T j T stg Rating 5 5 5 65 to + Unit ma ma mw W C C ø.95. : Cathode : Anode JEDEC : DO-5 (Main body to be pained in yellow green) Color indication of V Z rank classification L rank M rank H rank Common Electrical Characteristics (Ta= 5 C) * Parameter Symbol Condition Unit Forward voltage V F V Z * I F =ma.8.9 V V Operating resistance R ZK R Z Refer to the electrical characteristics Ω Ω Reverse current of zener voltage I R S Z * V R... Specified value list of P4 to P45 µa mv/ C Teral capacitance C t V R... Specified value pf Note. Rated input/output frequency : 5MHz. * : The V Z value is for the temperature of 5 C. In other cases, carry out the temperature compensation. * : Guaranteeed at ms after power application * : T j = 5 to 5 C
MA Series Electrical Characteristics (Ta= 5 C) V Z =. to 6.8V () MA MA-L MA-H MA MA-L MA-H MA4 MA4-L MA4-H MA7 MA7-L MA7-H MA MA-L MA-M MA-H MA MA-L MA-M MA-H MA MA-L MA-M MA-H MA9 MA9-L MA9-M MA9-H MA4 MA4-L MA4-M MA4-H MA47 MA47-L MA47-M MA47-H MA5 MA5-L MA5-M MA5-H MA56 MA56-L MA56-M MA56-H MA6 MA6-L MA6-M MA6-H MA68 MA68-L MA68-M MA68-H.88.88..8.8..8.8.4.5.5.65.8.8.9......4.4.5.6.7.7.8 4. 4. 4.7 4. 4.4 4.45 4.59 4.74 4.8 4.87 5. 5.4 5.48 5.66 5.8 5.85 6.5 6.4 6.4 6.44 6.64 6.85.4.7.6.8..9......4.6.5.6.7.8 4. 4. 4. 4. 4.4 4.7 4.6 4.7 4.9 5. 5. 5. 5.6 5.4 5.6 5.8 6. 6. 6. 6.4 6.8 6.6 6.8 7..4..4.45..45.7.56.7.9.75.9..97.8.8.5.8.8.49.8.59.69.79 4. 4. 4. 4.6 4.6 4.4 4.54 5. 4.69 4.8 4.99 5.4 5. 5.6 5.4 6. 5.58 5.76 5.95 6.6 6.5 6. 6.56 7. 6.77 6.98 7. I R I R R Z (Ω) R ZK V R V R I Z (V) (µa) (V) (µa) (ma) (Ω).5.7 4 4 5 5.5 5.7 5.9 5.9 6. 6. 6 6 5 5 85 8 8 79 75 5 4 5 6 6 8 6 4 5.5.5 of zener voltage S Z (mv/ C).5.5.5.5.5.6.5.5. Å.5 Å.4.5.4.5.5.5.5.4. 9.5.4 8.7.8 5 4.....5.7 4.5 Teral capacitance C t (pf) (V R = V) f=mhz 75 75 75 5 5 5 75 95 9 85 45 45 45 45 45 45 45 45 45 8 6 4 body : green) st. Green Green nd. White Brown Gray rd. White Brown Gray
MA Series V Z = 7.5 to V() MA75 MA75-L MA75-M MA75-H MA8 MA8-L MA8-M MA8-H MA9 MA9-L MA9-M MA9-H MA MA-L MA-M MA-H MA MA-L MA-M MA-H MA MA-L MA-M MA-H MA MA-L MA-M MA-H MA4-M MA5 MA5-L MA5-M MA5-H MA6 MA6-L MA6-M MA6-H MA8 MA8-L MA8-M MA8-H MA MA-L MA-M MA-H MA MA-L MA-M MA-H 7. 7.7 7.9 7.5 7.7 7.77 8. 8.9 8.5 8.58 8.87 9.4 9.4 9.44 9.75.7.4.4.7.5.4.4.7.6.4.4.7.5.65 4.6 4.95 5.7 6.6 6.9 6.9 7.55 8. 8.8 8.85 9.5.5.8.8.45. 7.5 7. 7.5 7.7 8. 7.9 8. 8.5 9. 8.8 9. 9.4 9.7..7..7..7.7 4 5 4. 5 6 5.7 6 6.7 8 7. 8 8.7 9..7..7 7.9 7.4 7.67 7.89 8.7 8.7 8.4 8.7 9.6 9. 9. 9.6.6 9.9.5.59.6.94.8.6.7.96..68 4..99.4 4.8 4.5 5.6 4.76 5 5.6 7. 6.9 6.5 7. 9. 7.76 8.45 9.. 9.8.5.9..86.55.4 of zener voltage capacitance Teral I R I R R Z (Ω) R ZK S Z (mv/ C) (V R = V) I body: green) V R V R Z f=mhz (V) (µa) (V) 6.5 (µa) (ma) (Ω) st. nd. rd. 5 6.5 6.7 7. 6 6 5.5.5 4 8 Green Green 7. 5.5 7. 7.5 7.7 6 6 5.5. 4.6 6. 75 95 Gray 8 6. 8 8. 8.6 6 6 5.5.8 5.5 7 7 9 White Brown Brown 8.9 7. 8.9 9. 9.5 6 8.5 4.5 6.4 8 7 9 Brown 9.9 7. 9.9..5 6.5 7 5.4 7.4 9 65 85 Brown Brown.9 8..9..5 6 5.5 7 6 8.4 65 85 Brown.9 9..9..7 6.5 7 7 9.4 6 8 Brown 9...4 6.5 7 7 6 8 Brown.5.4 4. 4.4 6.5 7 9..4 55 75 Brown 4.8.5 4.8 5. 5.7 6 4.5 7.4.4 4 5 75 Brown 6.4.5 6.4 7 7.7 6 45.5 7.4 4.4 6 47 7 Brown Gray 8. 4.5 8. 9 9.6 6 5 55.5 8 4.4 6.4 8 6. 5.5..9 6 55.5 8 6.4 8.4 4 6.6
MA Series V Z = 4V () MA4 MA4-L MA4-M MA4-H.8.8.5 4.5 4. 4 5 5.6 7 4.7 5.6 of zener voltage capacitance Teral I R I R R Z (Ω) R ZK S Z (mv/ C) (V R = V) body: green) V R V R I Z f=mhz (V) 7 (µa).5 (V).. (µa) 6 5 7 (ma).5 (Ω) 8 8.4.4 55 st. nd. rd. V Z = 7 to 9V (I Z = ma) MA7 MA7-L MA7-M MA7-H MA MA-L MA-M MA-H MA MA-L MA-M MA-H MA MA-L MA-M MA-H MA9 MA9-L MA9-M MA9-H 5. 6. 7. 8 8. 9..... 4 4. 5.. 7 7. 8 9 I Z = ma 7 6 7 8 9 4 5 7 8.9 6.7 7.7 8.7 9.7.8.8 5.8.8 4.9 8 5.9.9 7.9 4 9 4 4 Note. The V Z value is the one after power application for ms at Ta= 5 C. Note. The temperature coefficient is the one for T j = 5 to 5 C. of zener voltage capacitance Teral I R I R R Z (Ω) R ZK S Z (mv/ C) C t (pf) (V R = V) body: green) V R V R I Z = ma I Z I Z = ma f=mhz (V) (µa) (V) (µa) (ma) (Ω) st. nd. rd. 4.8 9.5 4.8 5.8 6 5 8.5.4.4 6.8 7.8.5 7.8 8.8 6 8.5 4.4 6.6 9.4 7 9.7.7.5.7.7 6 5 8.5 7.4 9.7.4 5.7.6 5.5.6 4.6 6 5 9.5.4 7.4 5.6 7.5 6.5 5.4.4 4. White
MA Series P tot Ta P ZSM t W I F V F Power dissipation Ptot (mw) 6 5 4.mm mm fmm PZSM (W) Non-repetitive reverse surge power dissipation 5 5 5 Ta=5 C (Prior to surge) 5 C (Prior to surge) Forward current IF (ma) 8 4 6 8 4 Ta=5 C 4 8 6 4 Ambient temperature Ta ( C)....5 5 Pulse width tw (ms)..4.6.8.. Forward voltage VF (V) I Z V Z I Z V Z I Z V Z 6 8 4 Ta=5 C Static MA4 MA7 MA MA MA MA9 MA4 8 6 4 MA47 MA5 MA56 MA6 Ta=5 C Static MA68 MA75 MA8 MA9 MA 4 MA MA MA6 Ta=5 C Static MA MA4 MA7 MA MA MA 4 5 6 4 6 8 4 5 I Z V Z I Z V Z I Z V Z 6 8 4 Tj=5 C Dynamic MA4 MA7 MA MA MA MA9 MA4 8 6 4 8 6 4 Tj=5 C Dynamic MA6 MA5 MA56 MA47 MA MA68 MA75 MA8 MA9 8 6 4 MA MA MA6 MA Tj=5 C Dynamic MA4 MA7 MA MA MA 4 5 6 4 6 8 4
MA Series Z th t W R Z I Z 4 Thermal impedance Zth ( C/mW) δ= δ=. tw T δ=tw/t Operating resistance RZ (Ω) MA MA4 MA MA47 MA MA MA68 4 5 6 Pulse width tw (ms) S Z I Z S Z I Z Tj=5 to 5 C 8 Tj=5 to 5 C SZ (mv/ C) MA7 MA4 MA9 MA MA MA MA4 SZ (mv/ C) 6 4 4 MA MA9 MA8 MA75 MA6 MA56 MA47 MA68 MA5 4 6 8 6 4 8 6 4