HZS Series Silicon Epitaxial Planar Zener Diode for Stabilized Power Supply ADE-208-120A(Z) Rev 1 Features • • • Low leakage, low zener impedance and maximum power dissipation of 400 mW are ideally suited for stabilized power supply, etc. Wide spectrum from 1.5V through 38V of zener voltage provide flexible application. Suitable for 5mm-pitch high speed automatic insertion. Ordering Information Type No. Mark Package Code HZS Series Type No. MHD Outline 7 B 1 2 2 Type No. Cathode band 1. Cathode 2. Anode HZS Series Absolute Maximum Ratings (Ta = 25°C) Item Symbol Value Unit Power dissipation Pd 400 mW Junction temperature Tj 200 °C Storage temperature Tstg -55 to +175 °C Electrical Characteristics (Ta = 25°C) Zener Voltage VZ (V)*1 Reverese Current Dynamic Resistance Test µA) Condition IR (µ Test Condition rd (Ω Ω) Test Condition Type Grade Min Max IZ (mA) Max VR (V) Max IZ (mA) HZS1 C3 1.5 1.7 5 25 0.5 100 5 HZS2 A1 1.6 1.8 5 25 0.5 100 5 A2 1.7 1.9 A3 1.8 2.0 B1 1.9 2.1 5 5 0.5 100 5 B2 2.0 2.2 B3 2.1 2.3 C1 2.2 2.4 C2 2.3 2.5 C3 2.4 2.6 A1 2.5 2.7 5 5 0.5 100 5 A2 2.6 2.8 A3 2.7 2.9 B1 2.8 3.0 B2 2.9 3.1 B3 3.0 3.2 C1 3.1 3.3 C2 3.2 3.4 C3 3.3 3.5 A1 3.4 3.6 5 5 1.0 100 5 A2 3.5 3.7 A3 3.6 3.8 HZS3 HZS4 Note: 2 1. Tested with DC. HZS Series Zener Voltage VZ (V)*1 Reverese Current Dynamic Resistance Test µA) Condition IR (µ Test Condition rd (Ω Ω) Test Condition Type Grade Min Max IZ (mA) Max VR (V) Max IZ (mA) HZS4 B1 3.7 3.9 5 5 1.0 100 5 B2 3.8 4.0 B3 3.9 4.1 C1 4.0 4.2 C2 4.1 4.3 C3 4.2 4.4 A1 4.3 4.5 5 5 1.5 100 5 A2 4.4 4.6 A3 4.5 4.7 B1 4.6 4.8 B2 4.7 4.9 B3 4.8 5.0 C1 4.9 5.1 C2 5.0 5.2 C3 5.1 5.3 A1 5.2 5.5 5 5 2.0 40 5 A2 5.3 5.6 A3 5.4 5.7 B1 5.5 5.8 B2 5.6 5.9 B3 5.7 6.0 C1 5.8 6.1 C2 6.0 6.3 C3 6.1 6.4 A1 6.3 6.6 5 1 3.5 15 5 A2 6.4 6.7 A3 6.6 6.9 B1 6.7 7.0 B2 6.9 7.2 B3 7.0 7.3 HZS5 HZS6 HZS7 Note: 1. Tested with DC. 3 HZS Series Zener Voltage VZ (V)*1 Reverese Current Dynamic Resistance Test µA) Condition IR (µ Test Condition rd (Ω Ω) Test Condition Type Grade Min Max IZ (mA) Max VR (V) Max IZ (mA) HZS7 C1 7.2 7.6 5 1 3.5 15 5 C2 7.3 7.7 C3 7.5 7.9 A1 7.7 8.1 5 1 5.0 20 5 A2 7.9 8.3 A3 8.1 8.5 B1 8.3 8.7 B2 8.5 8.9 B3 8.7 9.1 C1 8.9 9.3 C2 9.1 9.5 C3 9.3 9.7 A1 9.5 9.9 5 1 7.5 25 5 A2 9.7 10.1 A3 9.9 10.3 B1 10.2 10.6 B2 10.4 10.8 B3 10.7 11.1 C1 10.9 11.3 C2 11.1 11.6 C3 11.4 11.9 A1 11.6 12.1 5 1 9.5 35 5 A2 11.9 12.4 A3 12.2 12.7 B1 12.4 12.9 B2 12.6 13.1 B3 12.9 13.4 C1 13.2 13.7 C2 13.5 14.0 C3 13.8 14.3 HZS9 HZS11 HZS12 Note: 4 1. Tested with DC. HZS Series Zener Voltage VZ (V)*1 Reverese Current Dynamic Resistance Test µA) Condition IR (µ Test Condition rd (Ω Ω) Test Condition Type Grade Min Max IZ (mA) Max VR (V) Max IZ (mA) HZS15 1 14.1 14.7 5 1 11.0 40 5 2 14.5 15.1 3 14.9 15.5 1 15.3 15.9 5 1 12.0 45 5 2 15.7 16.5 3 16.3 17.1 1 16.9 17.7 5 1 13.0 55 5 2 17.5 18.3 3 18.1 19.0 1 18.8 19.7 2 1 15.0 60 2 2 19.5 20.4 3 20.2 21.1 1 20.9 21.9 2 1 17.0 65 2 2 21.6 22.6 3 22.3 23.3 1 22.9 24.0 2 1 19.0 70 2 2 23.6 24.7 3 24.3 25.5 1 25.2 26.6 2 1 21.0 80 2 2 26.2 27.6 3 27.2 28.6 1 28.2 29.6 2 1 23.0 100 2 2 29.2 30.6 3 30.2 31.6 1 31.2 32.6 2 1 25.0 120 2 2 32.2 33.6 3 33.2 34.6 1 34.2 35.7 2 1 27.0 140 2 2 35.3 36.8 3 36.4 38.0 HZS16 HZS18 HZS20 HZS22 HZS24 HZS27 HZS30 HZS33 HZS36 Note: Note: 1. Tested with DC. 2. Type No. is as follows; HZS2B1, HZS2B2, HZS36-3. 5 HZS Series Zener Current I Z (A) HZS36-2 HZS30-2 HZS24-2 HZS16-2 HZS12B2 10-3 HZS9B2 HZS2B2 HZS4B 2 HZS6B 2 10-2 HZS20-2 Main Characteristic 10-4 10-5 10-6 10-7 10-8 0 5 15 10 20 25 30 35 40 Zener Voltage V Z (V) Fig.1 Zener current Vs.Zener voltage 0.06 30 0.04 20 mV/°C 10 0.02 0 0 –0.02 –10 –0.04 –20 –0.06 –30 –0.08 –40 –0.10 0 5 –50 10 15 20 25 30 35 40 Zener Voltage VZ (V) Fig.2 Temperature Coefficient Vs.Zener voltage 6 l 2.5 mm 3 mm 400 Power Dissipation Pd (mW) (%/°C) z 40 Zener Voltage Temperature Coefficient γ z (mV/°C) %/°C 0.08 Zener Voltage Temperature Coefficient γ 500 50 0.10 Printed circuit board 100 ×180 ×1.6t mm Quality: paper phenol 300 l=5 mm 200 l=10 mm (Publication value) 100 0 0 50 100 150 Ambient Temperature Ta (°C) 200 Fig.3 Power Dissipation Vs.Ambient Temperature