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150023605+150026629 GE Critical Power Galaxy Pluto Plus Controller Main board visit GE Critical Power
150025012 GE Critical Power Galaxy Pluto Plus Controller Back Plane – 48V Version visit GE Critical Power
150017-240 Anaren Microwave Double Balanced Mixer, 4000MHz Min, 8000MHz Max, 9dB Conversion Loss-Max visit Digikey
15-002263 Conec Corporation D Subminiature Connector visit Digikey
15-002193 Conec Corporation D Subminiature Connector visit Digikey
1500774 Phoenix Contact Circular Connector, 5 Contact(s), Male, Screw Terminal, ROHS COMPLIANT visit Digikey

FZ 75 capacitor 1500 6.3V

Catalog Datasheet MFG & Type PDF Document Tags
Abstract: zero FZ at 75% of the LC double pole. C1 = = 1 2 × × R 3 × Fz Vout R2 Fb R1 Vref Voltage divider , 3.9 5.2 32 5.3 6 V mA mA 6 6.5 0.6 7.5 V V 2 NX2838 PARAMET ER 5V REG 5VREG , Condition Min TYP MAX Units 4.4 1500 Ib 0.24 0.54 2000 10 0.3 0.6 1.9 1.7 14 17 30 Ldrv going , internal logic circuits. A high freq 1uF ceramic capacitor is placed as close as possible to and connected , side fet driver . A high frequency 10uF ceramic capacitor must be connected from this pin to the GND Microsemi
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78R12 NX2838CMTR
Abstract: =28kâ"¦. 5. Calculate C1 by setting compensator zero FZ Figure 17 - Voltage divider at 75% of the LC double pole. Input Capacitor Selection 1 2 × Ï' × R 3 × Fz C1 = Input capacitors are , 3.5 5.2 6 6 6.5 7.5 0.6 Units V mA mA V V 2 NX2838 PARAMET ER , 1000 1.5 78 1200 1.9 85 150 kHz V % nS 1500 2000 10 2500 umho nA 0.24 , freq 1uF ceramic capacitor is placed as close as possible to and connected from this pin to ground Microsemi
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Abstract: (Conductive Polymer Aluminum Electrolytic Capacitor) Taping Specifications for SMD Type Polymer Capacitors , ±0.1 Hi-CAP is an electrolytic capacitor that uses a highly electric conductive polymer as it's electrolyte , temperature. Compared to other electrolytic capacitors, the Hi-CAP is a low impedance capacitor suitable for , ±0.2 ØD×L 2. Capacitor handling techniques (1) Capacitor insertion Incorrect land size may cause problems with capacitor placement and mountability. Refer to the land size table for appropriate design -
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FZ 73 capacitor 1500 6.3V FZ 89 1500 6.3V FZ 77 1500 6.3v FZ 51 1500 6.3V FZ 89 capacitor 1500 6.3V fz 79 1500 6.3v 2540DPI 175LPI 0J106
Abstract: Fz 75 % FLC Fz 0.75 * 1 2 Lo * C o (22) FZ F POLE Frequency Use equations , 97 96 95 94 Efficiency (%) 93 92 91 90 89 88 87 86 85 2.5 5 7.5 10 12.5 15 17.5 20 22.5 25 Iout (A , BiasGnd PGnd Comp C4 8.2 nF C7 2.2nF R10 57.6 R8 7.5 K PGood Rbot 604 Co=10X22uF/ 0805/X5R/6.3V , capacitor from this pin to local bias PGND (pin 12), very close to the pins. External 5V may also be connected to this pin for operation from 5V bias. Soft start; a capacitor from SS and LGND sets the International Rectifier
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FZ 87 1500 6.3V FZ 82 capacitor 1000 6.3V 59PR9874 fz 69 1000 16v FZ 88 1500 6.3V international rectifier P1827 5V16V 1827PBF 5M-1994
Abstract: , place the zero before the LC filter resonant frequency pole: VREF H(s) dB Fz 75 % FLC Fz , 97 96 95 94 Efficiency (%) 93 92 91 90 89 88 87 86 85 2.5 5 7.5 10 12.5 15 17.5 20 22.5 25 Iout (A , Comp C4 8.2 nF C7 2.2nF R10 57.6 R8 7.5 K PGood Rbot 604 Co=10X22uF/ 0805/X5R/6.3V Rt 36.5 , capacitor from this pin to local bias PGND (pin 12), very close to the pins. External 5V may also be connected to this pin for operation from 5V bias. Soft start; a capacitor from SS and LGND sets the International Rectifier
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LGA 2011 LGA 1150 120v to 5v buck converter 121k 1kv capacitor sr8 regulator tapped inductor buck converter
Abstract: ) Dmin (ctrl) Dmax Note 3 Note 3 Note 3 450 1350 75 1 500 1500 0.4 130 , Fz 75 % FLC Fz 0.75 * 1 2 Lo * C o (22) FZ F POLE Frequency Use equations , 90 89 88 87 86 85 2.5 5 7.5 10 12.5 15 17.5 20 22.5 25 Iout (A) Vo=1.8V Vo=3.3V Vin=12V Vcc=3.3V No , Vosp PGD Rt iP1827 Vosm Voso Fb BiasGnd PGnd Comp C4 8.2 nF C7 2.2nF R10 57.6 R8 7.5 K PGood , pump. Connect a 4.7uF to 10uF capacitor from this pin to local bias PGND (pin 12), very close to the International Rectifier
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SMD code V12
Abstract: R 3 =28k. 5. Calculate C1 by setting compensator zero FZ at 75% of the LC double pole. 1 C1 = 2 × , 290 1.4 78 Min 6 TYP 6.5 0.6 2.9 350 1.5 83 3.4 410 1.9 90 150 1500 2000 0.3 3 1.9 1.7 14 17 30 2500 MAX 7.5 Units V V mS kHz V % nS umho V V ohm ohm ns ns ns 2.4 Rsource(Hdrv) R sink(Hdrv) THdrv(Rise , side fet driver, BST and internal logic circuit. A high frequency 10uF ceramic capacitor must be , high freuqncy 1uF ceramic capacitor must be connected from this pin to GND. This pin is used to sense NEXSEM
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NX2837 NEXSEM fz 85 1500 6.3v AO6800 DO3316P-103 NX2837/MSOP-EP10
Abstract: system, because the zero caused by output capacitor ESR is lower than crossover frequency. FZ FLC , bulk capacitors. Choose R 3 =28kâ"¦. 5. Calculate C1 by setting compensator zero FZ at 75% of the , UVLO V in-Threshold SYM Test Condition Min TYP MAX Units 6 6.5 7.5 V , V % nS 1500 2000 0.3 2500 umho V 2.4 3 3.6 V Rsource(Hdrv) I , driver, BST and internal logic circuit. A high frequency 10uF ceramic capacitor must be connected from Microsemi
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Abstract: . Calculate C1 by setting compensator zero FZ at 75% of the LC double pole. 1 C1 = 2 × × R 3 × Fz 1 2 × × , TYP 6.5 0.6 MAX 7.5 Units V V 2.4 290 1.4 78 2.9 350 1.5 83 3.4 410 1.9 90 150 mS kHz V % nS umho V V ohm ohm ns ns ns 1500 2000 0.3 3 1.9 1.7 14 17 30 2500 2.4 Rsource , and internal logic circuit. A high frequency 10uF ceramic capacitor must be connected from this pin to , ceramic capacitor must be connected from this pin to GND. This pin is used to sense the output voltage of Microsemi
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1000uf 63V electrolytic capacitor 1000uf, 16v electrolytic capacitor FZ 4 1000Uf 6.3V ic ao4800 m2a MARKING SOT-23
Abstract: 20 KZ Extra low impedance 4.7 ~ 1500 6.3 ~ 50 -55 ~ +105 2000 20 FZ Long , FZ Series CHIP TYPE, LONG LIFE WITH EXTRA LOWER IMPEDANCE Extra low impedance with temperature , : 1-450-444-4714 / www.dblectro.com FZ Series DIMENSIONS & MAXIMUM PERMISSIBLE RIPPLE CURRENT WV 6.3 F , 1000 10 x 10.5 (8 x 10.5) 10 x 10.5 (8 x 10.5) 1500 10 x 10.5 1.35 90 0.70 160 , 1E 2.2 2R2 -20 KZ 35 1V 3.3 3R3 FZ 40 1G 4.7 4R7 EL 50 DB Lectro
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FZ 83 1500 capacitor FZ 83 capacitor FZ 77 1000 FZ 83 1000 capacitor FZ 77 1000 6.3v FZ electrolytic capacitor 2002/95/EC ZT/Z20
Abstract: Temperature 3000 Power Dissipation P (mW) 2500 2000 1500 1000 500 0 0 25 50 75 100 125 o Ambient Temperature , the inductance and output capacitor. Simultaneously, single zeros fZ(ESR) are generated by the output , fP(LC ) = 1 2 LC OUT If the ESR of the output capacitor is high, fZ(ESR) will be located in the , oscillating frequency, and Low ESR Output Capacitor (MLCC) within wide input range from 4.6V to 40V. Therefore , +=12V) OSC 0.805 0.8 0.795 0.79 -50 -25 0 25 50 75 100 125 150 Ambient Temperature Ta (oC) Limited New Japan Radio
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NJW4152GM1-A NJW4152R-B Schottky Diode 40V 2A NJW4152 NJW4152GM1 NJW4152R MO-187-DA
Abstract: the inductance and output capacitor. Simultaneously, single zeros fZ(ESR) are generated by the output , fP(LC ) = 1 2 LC OUT If the ESR of the output capacitor is high, fZ(ESR) will be located in the , Output Capacitor (MLCC) within wide input range from 3.6V to 40V. Therefore, the NJW4152 can realize , 0 25 50 75 100 125 150 Ambient Temperature Ta (°C) 0.792 -50 -25 0 25 50 75 100 125 150 Ambient , -25 0 25 50 75 100 125 150 Ambient Temperature Ta (°C) Under Voltage Lockout Voltage vs. Temperature New Japan Radio
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NJW4152GM1-A-T1 NJW4152-AB NJW4152GM1-AB NJW4152GM1-A-T NJW4152GM1-AB-T1 NJW4152R-BA-Z
Abstract: ) are generated by the inductance and output capacitor. Simultaneously, single zeros fZ(ESR) are , , if the ESR of the output capacitor is low, fZ(ESR) shifts to the high region, and the phase is , corresponds to high oscillating frequency, and Low ESR Output Capacitor (MLCC) within wide input range from , . Temperature 700 680 0.805 0.8 0.795 660 -50 -25 0 25 50 75 100 125 150 Ambient Temperature Ta (oC) 2.2 + V =12V + 2 V =40V 1.8 1.6 V+=4.5V 1.2 -50 -25 0 25 50 75 100 125 New Japan Radio
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JMK212ABJ475KG CMS11 CDRH8D28HPNP-220N 455 800 jrc
Abstract: Operating Temp Expand spec 1500 1000 General spec 500 0 600 400 200 0 0 25 50 75 , zeros fZ(ESR) are generated by the output capacitor and ESR. Each pole and zero is expressed by the , output capacitor is high, fZ(ESR) will be located in the vicinity of fP(LC). In an application such as , be readily maintained. However, if the ESR of the output capacitor is low, fZ(ESR) shifts to the , corresponds to high oscillating frequency, and Low ESR Output Capacitor (MLCC) within wide input range from New Japan Radio
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Abstract: inductance and output capacitor. Simultaneously, single zeros fZ(ESR) are generated by the output capacitor , ) = 1 2 LC OUT If the ESR of the output capacitor is high, fZ(ESR) will be located in the , oscillating frequency, and Low ESR Output Capacitor (MLCC) within wide input range from 4.6V to 40V. Therefore , -50 -25 0 25 50 75 100 125 150 Ambient Temperature Ta (oC) Limited Switching Current vs. Temperature (B ver.) Oscillator Frequency f 660 -50 -25 0 25 50 75 100 125 150 Ambient Temperature Ta (oC New Japan Radio
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Abstract: the inductance and output capacitor. Simultaneously, single zeros fZ(ESR) are generated by the output , fP(LC ) = 1 2 LC OUT If the ESR of the output capacitor is high, fZ(ESR) will be located in the , /600mA MOSFET. It corresponds to high oscillating frequency, and Low ESR Output Capacitor (MLCC) within , -50 -25 0 25 50 75 100 125 150 Ambient Temperature Ta (oC) Limited Switching Current vs. Temperature (B ver.) Oscillator Frequency f 660 -50 -25 0 25 50 75 100 125 150 Ambient Temperature Ta (oC New Japan Radio
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AEC-Q100 ISO/TS16949
Abstract: capacitor. Simultaneously, single zeros fZ(ESR) are generated by the output capacitor and ESR. Each pole , 2Ï' LC OUT If the ESR of the output capacitor is high, fZ(ESR) will be located in the vicinity of , frequency, and Low ESR Output Capacitor (MLCC) within wide input range from 3.6V to 40V. Therefore, the , 0.802 0.800 0.798 0.796 0.794 660 0.792 -50 -50 -25 0 25 50 75 100 125 150 Ambient , 50 75 100 125 150 Ambient Temperature Ta (°C) -50 8 3.5 VT_ON 3.4 3.3 VT_OFF 3.2 New Japan Radio
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Abstract: SS V in_Hyst Tss TYP MAX Units 6 6.5 7.5 V Vin Falling Soft Start time , 1500 2000 10 2500 umho nA 0.24 0.3 0.36 V 0.54 0.6 0.66 V Ib , 4.7uF X5R ceramic capacitor must be connected from this pin to the GND pin as close as possible. 6 VIN Voltage supply for the internal 5V regulator. A high freuqncy 0.1uF ceramic capacitor must be , . 3 BST This pin supplies voltage to the high side driver. A high frequency ceramic capacitor Microsemi
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NX2155H
Abstract: in_Hyst Tss TYP MAX Units 6 6.5 7.5 V Vin Falling Soft Start time Oscillator , 1500 2000 10 2500 umho nA 0.24 0.3 0.36 V 0.54 0.6 0.66 V Ib , 4.7uF X5R ceramic capacitor must be connected from this pin to the GND pin as close as possible. 6 VIN Voltage supply for the internal 5V regulator. A high freuqncy 0.1uF ceramic capacitor must be , . 3 BST This pin supplies voltage to the high side driver. A high frequency ceramic capacitor Microsemi
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nx155H mother board lcd tv block diagram nx2155 SCHEMATIC DIAGRAM lcd 12v 5A NX155 nx155hxxx
Abstract: ) Dmin (ctrl) Dmax Note 3 Note 3 Note 3 450 1350 75 1 500 1500 0.4 130 , the zero before the LC filter resonant frequency pole: VREF H(s) dB Fz 75 % FLC Fz 0.75 , internal charge pump. Connect a 4.7uF to 10uF capacitor from this pin to local bias PGND (pin 12), very , start; a capacitor from SS and LGND sets the startup timing. Signal ground for internal reference and , pump circuit in the IC. Connect a 10uF capacitor from this pin to local bias PGND (pin 12), very close International Rectifier
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v126 P1837 1837PBF
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