Datasheet MBRM120LT1G, NRVBM120LT1G, MBRM120LT3G, NRVBM120LT3G (ON Semiconductor) - 3
| Manufacturer | ON Semiconductor |
| Description | Schottky Power Rectifier, Surface Mount, 1.0 A, 20 V |
| Pages / Page | 6 / 3 — MBRM120LT1G, NRVBM120LT1G, MBRM120LT3G, NRVBM120LT3G. Figure 3. Typical … |
| Revision | 7 |
| File Format / Size | PDF / 266 Kb |
| Document Language | English |
MBRM120LT1G, NRVBM120LT1G, MBRM120LT3G, NRVBM120LT3G. Figure 3. Typical Reverse Current. Figure 4. Maximum Reverse Current
Model Line for this Datasheet
MBRM120L
Text Version of Document
MBRM120LT1G, NRVBM120LT1G, MBRM120LT3G, NRVBM120LT3G
10E−3 100E−3 1.0E−3 10E−3 TJ = 85C TJ = 85C 100E−6 1.0E−3 10E−6 100E−6 TJ = 25C , REVERSE CURRENT (AMPS) TJ = 25C I R 1.0E−6 10E−6 0 5.0 10 15 20 , MAXIMUM REVERSE CURRENT (AMPS) 0 5.0 10 15 20 I R VR, REVERSE VOLTAGE (VOLTS) VR, REVERSE VOLTAGE (VOLTS)
Figure 3. Typical Reverse Current Figure 4. Maximum Reverse Current
1.8 0.7 FREQ = 20 kHz 1.6 dc ATTS) 0.6 SQUARE 1.4 Ipk/Io = p WAVE I dc pk/Io = 5 0.5 1.2 SQUARE WAVE ATION (W Ipk/Io = 10 1.0 0.4 Ipk/Io = p Ipk/Io = 20 0.8 ARD CURRENT (AMPS) 0.3 I W pk/Io = 5 0.6 I 0.2 pk/Io = 10 0.4 Ipk/Io = 20 0.2 0.1 VERAGE FOR 0 0 VERAGE POWER DISSIP , A 25 35 45 55 65 75 85 95 105 115 125 0 0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6 , A I O TL, LEAD TEMPERATURE (C) IO, AVERAGE FORWARD CURRENT (AMPS) P FO
Figure 5. Current Derating Figure 6. Forward Power Dissipation
1000 125 C) 115 TURE ( TJ = 25C 105 Rtja = 33.72C/W ANCE (pF) 100 95 ACIT TING TEMPERA 119C/W 85 204 C, CAP C/W 277.35C/W 338 75 C/W 10 TED OPERA 65 0 2.0 4.0 6.0 8.0 10 12 14 16 18 20 0 2.0 4.0 6.0 8.0 10 12 14 16 18 20 VR, REVERSE VOLTAGE (VOLTS) , DERA VR, DC REVERSE VOLTAGE (VOLTS)
Figure 7. Capacitance
T J
Figure 8. Typical Operating Temperature Derating*
* Reverse power dissipation and the possibility of thermal runaway must be considered when operating this device under any re- verse voltage conditions. Calculations of TJ therefore must include forward and reverse power effects. The allowable operating TJ may be calculated from the equation: TJ = TJmax − r(t)(Pf + Pr) where r(t) = thermal impedance under given conditions, Pf = forward power dissipation, and Pr = reverse power dissipation This graph displays the derated allowable TJ due to reverse bias under DC conditions only and is calculated as TJ = TJmax − r(t)Pr, where r(t) = Rthja. For other power applications further calculations must be performed.
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10E−3 100E−3 1.0E−3 10E−3 TJ = 85C TJ = 85C 100E−6 1.0E−3 10E−6 100E−6 TJ = 25C , REVERSE CURRENT (AMPS) TJ = 25C I R 1.0E−6 10E−6 0 5.0 10 15 20 , MAXIMUM REVERSE CURRENT (AMPS) 0 5.0 10 15 20 I R VR, REVERSE VOLTAGE (VOLTS) VR, REVERSE VOLTAGE (VOLTS)
Figure 3. Typical Reverse Current Figure 4. Maximum Reverse Current
1.8 0.7 FREQ = 20 kHz 1.6 dc ATTS) 0.6 SQUARE 1.4 Ipk/Io = p WAVE I dc pk/Io = 5 0.5 1.2 SQUARE WAVE ATION (W Ipk/Io = 10 1.0 0.4 Ipk/Io = p Ipk/Io = 20 0.8 ARD CURRENT (AMPS) 0.3 I W pk/Io = 5 0.6 I 0.2 pk/Io = 10 0.4 Ipk/Io = 20 0.2 0.1 VERAGE FOR 0 0 VERAGE POWER DISSIP , A 25 35 45 55 65 75 85 95 105 115 125 0 0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6 , A I O TL, LEAD TEMPERATURE (C) IO, AVERAGE FORWARD CURRENT (AMPS) P FO
Figure 5. Current Derating Figure 6. Forward Power Dissipation
1000 125 C) 115 TURE ( TJ = 25C 105 Rtja = 33.72C/W ANCE (pF) 100 95 ACIT TING TEMPERA 119C/W 85 204 C, CAP C/W 277.35C/W 338 75 C/W 10 TED OPERA 65 0 2.0 4.0 6.0 8.0 10 12 14 16 18 20 0 2.0 4.0 6.0 8.0 10 12 14 16 18 20 VR, REVERSE VOLTAGE (VOLTS) , DERA VR, DC REVERSE VOLTAGE (VOLTS)
Figure 7. Capacitance
T J
Figure 8. Typical Operating Temperature Derating*
* Reverse power dissipation and the possibility of thermal runaway must be considered when operating this device under any re- verse voltage conditions. Calculations of TJ therefore must include forward and reverse power effects. The allowable operating TJ may be calculated from the equation: TJ = TJmax − r(t)(Pf + Pr) where r(t) = thermal impedance under given conditions, Pf = forward power dissipation, and Pr = reverse power dissipation This graph displays the derated allowable TJ due to reverse bias under DC conditions only and is calculated as TJ = TJmax − r(t)Pr, where r(t) = Rthja. For other power applications further calculations must be performed.
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