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BZV55C5V6 Dataheets PDF



Part Number BZV55C5V6
Manufacturers Taiwan Semiconductor
Logo Taiwan Semiconductor
Description Zener Voltage Regulators
Datasheet BZV55C5V6 DatasheetBZV55C5V6 Datasheet (PDF)

Pb RoHS COMPLIANCE BZV55C2V0-BZV55C75 0.5 Watts Hermetically Sealed Glass Zener Voltage Regulators MINI-MELF Features — Zener voltage range 2.0 to 75 volts — LL-34(Mini-MELF) package — Surface device type mounting — Hermetically sealed glass — Compression Bonded Construction — All external surfaces are corrosion resistant and terminals are readily solderable — RoHS compliant — Matte Tin(Sn) lead finish — Blue color band indicates negative polarity Dimensions in inches and (millimeters) Maxim.

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Pb RoHS COMPLIANCE BZV55C2V0-BZV55C75 0.5 Watts Hermetically Sealed Glass Zener Voltage Regulators MINI-MELF Features — Zener voltage range 2.0 to 75 volts — LL-34(Mini-MELF) package — Surface device type mounting — Hermetically sealed glass — Compression Bonded Construction — All external surfaces are corrosion resistant and terminals are readily solderable — RoHS compliant — Matte Tin(Sn) lead finish — Blue color band indicates negative polarity Dimensions in inches and (millimeters) Maximum Ratings and Electrical Characteristics Rating at 25 oC ambient temperature unless otherwise specified. Type Number Symbol Value Power Dissipation Ptot 500 Operating and Storage Temperature Range TJ, TSTG -65 to + 200 Notes: These ratings are limiting values above which the serviceability of the diode may be impaired Units mW oC Version: B07 ELECTRICAL CHARACTERISTICS (TA=25oC unless otherwise noted) Type VZ @ IZT (Volts) IZT ZZT @ IZT IZK ZZK @ IZK IR @ VR Number VZ VZ VZ mA Ohms mA Ohms uA Min (V) Nom Max (V) Max Max VR V BZV55C2V0 1.88 2 2.11 5 100 1.0 600 50 1.0 BZV55C2V2 2.08 2.2 2.33 5 100 1.0 600 50 1.0 BZV55C2V4 2.28 2.4 2.56 5 85 1.0 600 50 1.0 BZV55C2V7 2.51 2.7 2.89 5 85 1.0 600 10 1.0 BZV55C3V0 2.8 3.0 3.2 5 85 1.0 600 4 1.0 BZV55C3V3 3.1 3.3 3.5 5 85 1.0 600 2 1.0 BZV55C3V6 3.4 3.6 3.8 5 85 1.0 600 2 1.0 BZV55C3V9 3.7 3.9 4.1 5 85 1.0 600 2 1.0 BZV55C4V3 4.0 4.30 4.6 5 75 1.0 600 1 1.0 BZV55C4V7 4.4 4.7 5.0 5 60 1.0 600 0.5 1.0 BZV55C5V1 4.8 5.1 5.4 5 35 1.0 550 0.1 1.0 BZV55C5V6 5.2 5.6 6.0 5 25 1.0 450 0.1 1.0 BZV55C6V2 5.8 6.2 6.6 5 10 1.0 200 0.1 2.0 BZV55C6V8 6.4 6.8 7.2 5 8 1.0 150 0.1 3.0 BZV55C7V5 7.0 7.5 7.9 5 7 1.0 50 0.1 5.0 BZV55C8V2 7.7 8.2 8.7 5 7 1.0 50 0.1 6.2 BZV55C9V1 8.5 9.1 9.6 5 10 1.0 50 0.1 6.8 BZV55C10 9.4 10 10.6 5 15 1.0 70 0.1 7.5 BZV55C11 10.4 11 11.6 5 20 1.0 70 0.1 8.2 BZV55C12 11.4 12 12.7 5 20 1.0 90 0.1 9.1 BZV55C13 12.4 13 14.1 5 26 1.0 110 0.1 10 BZV55C15 13.8 15 15.6 5 30 1.0 110 0.1 11 BZV55C16 15.3 16 17.1 5 40 1.0 170 0.1 12 BZV55C18 16.8 18 19.1 5 50 1.0 170 0.1 13 BZV55C20 18.8 20 21.1 5 55 1.0 220 0.1 15 BZV55C22 20.8 22 23.3 5 55 1.0 220 0.1 16 BZV55C24 22.8 24 25.6 5 80 1.0 220 0.1 18 BZV55C27 25.1 27 28.9 2 80 1.0 220 0.1 20 BZV55C30 28 30 32 2 80 1.0 220 0.1 22 BZV55C33 31 33 35 2 80 1.0 220 0.1 24 BZV55C36 34 36 38 2 80 1.0 220 0.1 27 BZV55C39 37 39 41 2 90 0.5 500 0.1 28 BZV55C43 40 43 46 2 90 0.5 600 0.1 32 BZV55C47 44 47 50 2 110 0.5 700 0.1 35 BZV55C51 48 51 54 2 125 0.5 700 0.1 38 BZV55C56 52 56 60 2 135 0.5 1000 0.1 42 BZV55C62 58 62 66 2.5 150 0.5 1000 0.1 47 BZV55C68 64 68 72 2.5 160 0.5 1000 0.1 51 BZV55C75 70 75 80 2.5 170 0.5 1000 0.1 56 Notes: 1. VF Forward Voltage = 1.0v Maximum @ IF=100mA for all types. 2. The type numbers listed have zener voltage min/max limits as shown. 3. Zener impedance is derived from the 60-cycle ac voltage, which results when an ac current having an rms value equal to 10% of the dc zener current (IZT or IZK) is superimposed to IZT or IZK Version: B07 RATINGS AND CHARACTERISTIC CURVES (BZV55C SERIES) TKVZ - Temperature Coefficient of VZ (10-4/K) Ptot - Total Power Dissipation (mW) 600 500 400 300 200 100 0 0 40 80 120 160 200 Tamb - Ambient Temperature (°C) Figure 1. Total Power Dissipation vs. Ambient Temperature 1000 Tj = 25 °C 100 IZ = 5 mA 10 VZ - Voltage Change (mV) 1 0 5 10 15 20 25 VZ - Z-Voltage (V) Figure 2. Typical Change of Working Voltage under Operating Conditions at Tamb=25°C VZtn - Relative Voltage Change 1.3 VZtn = VZt/VZ (25 °C) 1.2 TKVZ = 10 x 10-4/K 8 x 10-4/K 6 x 10-4/K 1.1 4 x 10-4/K 2 x 10-4/K 1.0 0 - 2 x 10-4/K 0.9 - 4 x 10-4/K 0.8 - 60 0 60 120 180 240 Tj - Junction Temperature (°C) Figure 3. Typical Change of Working Voltage vs. Junction Temperature 15 10 5 IZ = 5 mA 0 -5 0 10 20 30 40 50 V - Z-Voltage (V) Z Figure 4. Temperature Coefficient of Vz vs. Z-Voltage C - Diode Capacitance (pF) D 200 150 VR = 2 V 100 Tj = 25 °C 50 0 0 5 10 15 20 25 VZ - Z-Voltage (V) Figure 5. Diode Capacitance vs. Z-Voltage IF - Forward Current (mA) 100 10 Tj = 25 °C 1 0.1 0.01 0.001 0 0.2 0.4 0.6 0.8 1.0 VF - Forward Voltage (V) Figure 6. Forward Current vs. Forward Voltage Version: B07 RATINGS AND CHARACTERISTIC CURVES (BZV55C SERIES) 100 1000 rZ - Differential Z-Resistance (Ω) IZ - Z-Current (mA) 80 Ptot = 500 mW Tamb = 25 °C 60 40 20 0 0 4 6 8 12 VZ - Z-Voltage (V) Figure 7. Z-Current vs. Z-Voltage 20 IZ = 1 mA 100 5 mA 10 10 mA 1 Tj = 25 °C 0 5 10 15 20 25 VZ - Z-Voltage (V) Figure 9. Differential Z-Resistance vs. Z-Voltage IZ - Z-Current (mA) 50 40 Ptot = 500 mW T = 25 °C amb 30 20 10 0 15 20 25 30 VZ - Z-Voltage (V) Figure 8. Z-Current vs. Z-Voltage 35 Zthp - Thermal Resistance for Pulse Cond. (KW) 1000 tP/T = 0.5 100 tP/T = 0.2 10 tP/T = 0.1 tP/T = 0.01 tP/T = 0.02 tP/T = 0.05 1 10-1 100 Sin.


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