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134mV

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Abstract: static limits on the output voltage are required to be +89/-79mV, and the transient limits + 134mV. , the VID code setting, 2.000V in this case. The output is allowed to drop 134mV from this value. Since this is caused by a current step of 14.2A, the required ESR for this transition is just ESR = 134mV , . Since we are allowed to rise 134mV, there is 2.134V ­ 1.988V = 146mV of headroom; this being more than the 134mV of the previous paragraph, the number of caps required for this edge is less. We can thus Fairchild Semiconductor
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AB-24 RC5057 RC5058 FAN5091 FAN5093 FAN5056 336V FDS6690
Abstract: =103mV VHR=134mV dB 1. VHR=167mV The product can be used with voltage sources from 3 to 30Vdc by , , ILOAD = 10A 0 VHR=103mV VHR=134mV dB VHR=167mV VHR=203mV -50 VHR=256mV VHR , Figure 6 ­ Attenuation vs frequency @ 15 volts VOUT = 28V, ILOAD = 10A 0 VHR=103mV VHR=134mV dB Vicor
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hr r 102k 167mV Picor y0030 IRLML6401 RPS 28V input 3-30V 12/02/10M
Abstract: Voltage Power Dissipation 0.01uF 0.4 2.1V 0.1uF 0.04 134mV 4.9V 3.6mW 1.0uF Aeroflex UTMC
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UT63M147 UT69151 capacitor cross reference MIL-STD-1553 MM016 MM023 MM025
Abstract: 122mV 90.00 80.00 126mV 80.00 70.00 130mV 70.00 134mV 60.00 Iout (mA , 100.00 118mV 90.00 -40°C 126mV 80.00 -25°C 70.00 130mV 70.00 0°C 134mV , 70.00 130mV 70.00 0°C 134mV 60.00 25°C 60.00 Iout (mA) 118mV 90.00 Iout Infineon Technologies
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BCR450 BC817SU BCX68 BCX68-25 LM6181 SC74 GPX09300 CPWG5899
Abstract: =103mV) Vout=15V Iload=10A 113k (134mV) 102k (167mV) 95.3k (203mV) -40 82.5k (256mV) -80 75k (300mV) -110 , B -0 Rhr=124k (Vhr=103mV) Vout=15V Iload=10A 113k (134mV) 102k (167mV) 95.3k (203mV) -40 82.5k Picor
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30VDC 5/03/10M
Abstract: =124k (Vhr=103mV) Vout=15V Iload=10A 102k (167mV) -40 dB 95.3k (203mV) 113k (134mV) -80 82.5k (256mV , =103mV) Vout=15V Iload=10A 102k (167mV) -40 dB 95.3k (203mV) 113k (134mV) -80 82.5k (256mV) 75k (300mV Picor
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11/03/10M
Abstract: =124k (Vhr=103mV) Vout=15V Iload=10A 102k (167mV) -40 dB 95.3k (203mV) 113k (134mV) -80 82.5k (256mV , =103mV) Vout=15V Iload=10A 102k (167mV) -40 dB 95.3k (203mV) 113k (134mV) -80 82.5k (256mV) 75k (300mV Picor
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25uF capacitor 6/03/10M
Abstract: the 3 to 30 Volt range of the QPO-1. 113k (134mV) 82.5k (256mV) -80 75k (300mV) -110 , =15V Iload=10A 113k (134mV) 102k (167mV) 95.3k (203mV) dB -40 82.5k (256mV) -80 75k Picor
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9/03/10M
Abstract: =124k (Vhr=103mV) Vout=15V Iload=10A 102k (167mV) -40 dB 95.3k (203mV) 113k (134mV) -80 82.5k (256mV , =103mV) Vout=15V Iload=10A 102k (167mV) -40 dB 95.3k (203mV) 113k (134mV) -80 82.5k (256mV) 75k (300mV Picor
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Abstract: ripple = 100mV Vout ripple = 134mV Ichoke (5A/div) Ichoke (5A/div) Figure 9. Output Ripple: No Sipex
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SP7655 SP7655ER SP7655EB SD101AWS SPX5205 MMSZ4678T1 C1608COG1H222J 6812F SPX5205 equivalent
Abstract: 146mV 148mV 150mV 152mV 134mV 100.00 90.00 80.00 70.00 100.00 90.00 80.00 70.00 Iout (mA) 60.00 Infineon Technologies
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AN105 infineon AN105
Abstract: 130mV 70.00 0°C 134mV 60.00 25°C 60.00 Iout (mA) 122mV 80.00 Iout (mA Infineon Technologies
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50S INFINEON asc74 AECQ100 SC-74
Abstract: -25°C 70.00 130mV 70.00 0°C 60.00 25°C 134mV 138mV 140mV 142mV 144mV 150mV Infineon Technologies
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Abstract: rising trip point should be 4.48V. 34.8 VHYST ( Adapter ) 30mV · 1 + 134mV 10 The hysteresis is going to be approximately 134mV for this example. Power Dissipation The conditions that Linear Technology
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40VMAX LTC4055EUF#PBF bat211 LTC4055 LTC4055-1 LTC4055EUF LTC4055/LTC4055-1 4055/LTC4055-1 DFN14 LTC4088-1/ LTC4088-2 LTC4089/
Abstract: rising trip point should be 4.48V. 34.8 VHYST ( Adapter ) 30mV · 1 + 134mV 10 The hysteresis is going to be approximately 134mV for this example. Power Dissipation The conditions that Linear Technology
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A/100 LTC4089-5/ LTC4089-1 DFN22 LTC4089 LTC4089-5
Abstract: be 4.48V. 34.8 VHYST ( Adapter ) 30mV · 1+ 134mV 10 The hysteresis is going to be approximately 134mV for this example. Power Dissipation The conditions that cause the LTC4055/LTC4055-1 to Linear Technology
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marking 2U 95 diode LTC1733 LTC4411 MO-220 Pin Diagram of ic 4086 datasheet LTC3405/LTC3405A LTC3406/LTC3406A LTC3411 LTC3440 LTC3455
Abstract: MEASURE CH1 p-p 44.8mV CH2 p-p 254mV 2 CH2 MAX 134mV LIMIT = ±150mV CH1 CYC RMS Linear Technology
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LTC4090/ LTC4090-5
Abstract: transient limits are ±134mV, current I is 14.2A, and the nominal voltage is 2.000V, using MOSFET current Analog Devices
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CN-0267 CM360 AD5421 AD5700 CN0267
Abstract: the static limits are +89mV/-79mV, transient limits are ±134mV, current I is 14.2A, and the nominal Fairchild Semiconductor
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RC5061 INTEL 845 MOTHERBOARD CIRCUIT diagram PC 845 MOTHERBOARD VOLTAGE diagram intel 845 circuit diagram 845 MOTHERBOARD CIRCUIT diagram MBRD835L 6MV1500GX RC5061M DS30005051
Abstract: Voltage Power Dissipation 0.01uF 0.4 2.1V 0.1uF 0.04 134mV 4.9V 3.6mW 1.0uF Fairchild Semiconductor
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FAN5070 FAN5070M DS30005056MV85
Abstract: 122mV 90.00 80.00 126mV 80.00 70.00 130mV 70.00 134mV 60.00 Iout (mA , 100.00 118mV 90.00 -40°C 126mV 80.00 -25°C 70.00 130mV 70.00 0°C 134mV , 70.00 130mV 70.00 0°C 134mV 60.00 25°C 60.00 Iout (mA) 118mV 90.00 Iout Analog Devices
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c3457 ADXL190 QC-14 C3457 ADXL190EM-1 ADXL190WQC
Abstract: =124k (Vhr=103mV) Vout=15V Iload=10A 102k (167mV) -40 dB 95.3k (203mV) 113k (134mV) -80 82.5k (256mV , =103mV) Vout=15V Iload=10A 102k (167mV) -40 dB 95.3k (203mV) 113k (134mV) -80 82.5k (256mV) 75k (300mV Analog Devices
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transistor c3457 ADXL
Abstract: =103mV) Vout=15V Iload=10A 113k (134mV) 102k (167mV) 95.3k (203mV) -40 82.5k (256mV) -80 75k (300mV) -110 , B -0 Rhr=124k (Vhr=103mV) Vout=15V Iload=10A 113k (134mV) 102k (167mV) 95.3k (203mV) -40 82.5k -
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