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Part Manufacturer Description Datasheet BUY
V62/06644-02XE Texas Instruments Enhanced Product Cap-Free Nmos 250-Ma Ldo Regulator With Reverse Current Protection 5-SOT-23 -55 to 125 visit Texas Instruments
V62/06644-05XE Texas Instruments Enhanced Product Cap-Free Nmos 250-Ma Ldo Regulator With Reverse Current Protection 5-SOT-23 -55 to 125 visit Texas Instruments
TPS73230MDBVREP Texas Instruments Enhanced Product Cap-Free Nmos 250-Ma Ldo Regulator With Reverse Current Protection 5-SOT-23 -55 to 125 visit Texas Instruments Buy
TPS73233MDBVREP Texas Instruments Enhanced Product Cap-Free Nmos 250-Ma Ldo Regulator With Reverse Current Protection 5-SOT-23 -55 to 125 visit Texas Instruments Buy
V62/06644-06XE Texas Instruments Enhanced Product Cap-Free Nmos 250-Ma Ldo Regulator With Reverse Current Protection 5-SOT-23 -55 to 125 visit Texas Instruments
V62/06644-07XE Texas Instruments Enhanced Product Cap-Free Nmos 250-Ma Ldo Regulator With Reverse Current Protection 5-SOT-23 -55 to 125 visit Texas Instruments

250 MF CAPACITOR

Catalog Datasheet MFG & Type PDF Document Tags

0.1 MF CAPACITOR

Abstract: 0.5 MF CAPACITOR 0.01-mF or larger ceramic capacitor should be connected from this pin to ground. Capacitor connected , 2.2-mF ceramic or tantalum capacitor to ground. Output voltage. Connect COUT between this pin and , 10 mF ILOAD = 250 mA trise = 5 msec 5.00 ms/div VINSTEP = 5.3 to 4.3 V VOUT = 3.3 V COUT = 2.2 mF CIN = 10 mF ILOAD = 250 mA tfall = 5 msec Document Number: 71150 S-50626-Rev. G, 04 , V/div ERROR CH-2 2 V/div VIN = 4.2 V VOUT = 3.3 V Cdelay = 0.1 mF CNOISE = 0.1 mF ILOAD = 250 mA
Vishay Siliconix
Original

82ad marking for MSOP-8

Abstract: 82AD noise applications, a 0.01-mF or larger ceramic capacitor should be connected from this pin to ground , pin with a 2.2-mF ceramic or tantalum capacitor to ground. Output voltage. Connect COUT between this , V COUT = 2.2 mF CIN = 10 mF ILOAD = 250 mA trise = 5 msec 5.00 ms/div VINSTEP = 5.3 to 4.3 V VOUT = 3.3 V COUT = 2.2 mF CIN = 10 mF ILOAD = 250 mA tfall = 5 msec Document Number: 71150 S , = 0.1 mF ILOAD = 250 mA 5.00 ms/div VIN = 4.2 V VOUT = 3.3 V Cdelay = 0.1 mF CNOISE = 0.1 mF ILOAD =
Vishay Siliconix
Original

Si9182DH-15-T1

Abstract: Si9182DH-18-T1 applications, a 0.01-mF or larger ceramic capacitor should be connected from this pin to ground. 2 DELAY , CNOISE and COUT. Input supply pin. Bypass this pin with a 2.2-mF ceramic or tantalum capacitor to ground , CIN = 10 mF COUT = 2.2 mF ILOAD = 150 mA IOUT = 250 mA 1200 ­20 IOUT = 200 mA I GND ( mA , -Jul-00 VOUT 10 mV/div VINSTEP = 4.3 to 5.3 V VOUT = 3.3 V COUT = 2.2 mF CIN = 10 mF ILOAD = 250 mA , 0.1 mF ILOAD = 250 mA Output Noise VIN = 4.2 V VOUT = 3.3 V Cdelay = 0.1 mF CNOISE = 0.1 mF
Vishay Siliconix
Original

Si9182

Abstract: Si9182DH-12-T1 1 CNOISE Noise bypass pin. For low noise applications, a 0.01-mF or larger ceramic capacitor , IOUT = 250 mA -40 -80 10 5 VOUT = 5 V CIN = 10 mF COUT = 2.2 mF ILOAD = 150 mA I , ILOAD = 250 mA trise = 5 msec 5.00 ms/div VINSTEP = 5.3 to 4.3 V VOUT = 3.3 V COUT = 2.2 mF CIN = 10 mF ILOAD = 250 mA tfall = 5 msec www.vishay.com 7 Si9182 Vishay Siliconix , 250 mA Output Noise VIN = 4.2 V VOUT = 3.3 V Cdelay = 0.1 mF CNOISE = 0.1 mF ILOAD = 250 mA
Vishay Siliconix
Original

82AD

Abstract: 82ad marking for MSOP-8 bypass pin. For low noise applications, a 0.01-mF or larger ceramic capacitor should be connected from , COUT. Input supply pin. Bypass this pin with a 2.2-mF ceramic or tantalum capacitor to ground. Output , . Temperature and Load 1500 0 VOUT = 5 V CIN = 10 mF COUT = 2.2 mF ILOAD = 150 mA IOUT = 250 mA , to 5.3 V VOUT = 3.3 V COUT = 2.2 mF CIN = 10 mF ILOAD = 250 mA trise = 5 msec 5.00 ms/div VINSTEP = 5.3 to 4.3 V VOUT = 3.3 V COUT = 2.2 mF CIN = 10 mF ILOAD = 250 mA tfall = 5 msec
Vishay Siliconix
Original

82ad

Abstract: Si9182DH-33-T1 Noise bypass pin. For low noise applications, a 0.01-mF or larger ceramic capacitor should be connected , -Jul-00 VOUT 10 mV/div VINSTEP = 4.3 to 5.3 V VOUT = 3.3 V COUT = 2.2 mF CIN = 10 mF ILOAD = 250 mA , 0.1 mF ILOAD = 250 mA Output Noise VIN = 4.2 V VOUT = 3.3 V Cdelay = 0.1 mF CNOISE = 0.1 mF , FIGURE 5. 250-mA CMOS LDO Regulator (Fixed Output) 6 ADJ 1 CNOISE 4 VIN CIN 2.2 mF , Si9182 is stable with any output capacitor type from 1 mF to 10.0 mF. However, X5R or X7R ceramic
Vishay Siliconix
Original

5504G

Abstract: 400 MF 450 V CAPACITOR capacitor for the fixed output. This device along with a ripple rejection of 75 dB and a dropout of 250 mV @ , capacitor type and values are as follows: Cin (Tantalum or Aluminum Electrolytic) = 4.7 mF to 100 mF Cout1 , 0 Vin = 5.0 V Vout1 = 1.25 V Cin = 4.7 mF Cout = 1.0 mF TJ = 25°C 1.0 IO = 10 mA IO = 250 mA , 3.3 V IO = 250 mA Cin = 4.7 mF Cout = 4.7 mF TA = 25°C START: 100 Hz STOP: 100 kHz START: 100 , (nVrms/Hz) Vin = 5.0 V Vout2 = 1.25 V IO = 10 mA Cin = 4.7 mF Cout = 4.7 mF TA = 25°C 250 200 150 100
ON Semiconductor
Original

82ad marking for MSOP-8

Abstract: Si9182DH-28-T1 1 CNOISE Noise bypass pin. For low noise applications, a 0.01-mF or larger ceramic capacitor , IOUT = 250 mA -40 -80 10 5 VOUT = 5 V CIN = 10 mF COUT = 2.2 mF ILOAD = 150 mA I , ILOAD = 250 mA trise = 5 msec 5.00 ms/div VINSTEP = 5.3 to 4.3 V VOUT = 3.3 V COUT = 2.2 mF CIN = 10 mF ILOAD = 250 mA tfall = 5 msec www.vishay.com 7 Si9182 Vishay Siliconix , 250 mA Output Noise VIN = 4.2 V VOUT = 3.3 V Cdelay = 0.1 mF CNOISE = 0.1 mF ILOAD = 250 mA
Vishay Siliconix
Original

82ad

Abstract: 82ad marking for MSOP-8 1 CNOISE Noise bypass pin. For low noise applications, a 0.01-mF or larger ceramic capacitor , IOUT = 250 mA -40 -80 10 5 VOUT = 5 V CIN = 10 mF COUT = 2.2 mF ILOAD = 150 mA I , ILOAD = 250 mA trise = 5 msec 5.00 ms/div VINSTEP = 5.3 to 4.3 V VOUT = 3.3 V COUT = 2.2 mF CIN = 10 mF ILOAD = 250 mA tfall = 5 msec www.vishay.com 7 Si9182 Vishay Siliconix , 250 mA Output Noise VIN = 4.2 V VOUT = 3.3 V Cdelay = 0.1 mF CNOISE = 0.1 mF ILOAD = 250 mA
Vishay Siliconix
Original

B81133 X2 mkt

Abstract: B25355 300 Vac X2 275 Vac Y1 250 Vac Y2 250 Vac 0,68 mF 0,47 mF 0,33 mF 0,22 mF 0,15 mF 0,10 mF 68 56 47 , 68 47 33 22 15 10 6,8 4,7 3,3 2,2 1,5 1,0 0,68 Merkmale Features mF mF mF mF mF mF mF mF mF mF mF mF mF mF mF mF mF mF mF nF nF nF nF nF nF nF nF nF nF nF nF nF B32560 . B32564 B32591. B32594 B32572 , 630 Vdc 100 Vdc 250 Vdc Kunststoffbecher (UL 94 V-0) Plastic case (UL 94 V-0) SilverCaps , phones, television, automobiles, PCs and lamp ballasts. 0,68 nF . 0,25 mF 1,0 . 12,5 kVdc
EPCOS
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B81133 X2 mkt B25355 B25650 CAPACITOR, 33000 MF, 63 VDC capacitor mkt 344 ultracapacitor B32520 B32529 B32573 B32582 B32584 B32231

NCP160AFCS250T2G

Abstract: a 1 mF output ceramic capacitor. It is available in two thickness ultraâ'small 0.35P, 0.65 mm x , Time Power Supply Rejection Ratio 250 mV mA 1.2 0.4 0.2 COUT = 1 mF, From assertion , 3.33 IOUT = 10 mA and 250 mA 3.32 3.31 3.30 VIN = 4.3 V VOUT = 3.3 V CIN = 1 mF COUT = 1 mF , 5.16 5.15 IOUT = 250 mA 5.14 VIN = 5.5 V VOUT = 5.14 V CIN = 1 mF COUT = 1 mF 5.13 5.12 , CIN = 1 mF COUT = 1 mF 0.30 0.15 0 225 250 0 25 50 75 100 125 150 175 200 225
ON Semiconductor
Original
NCP160AFCS250T2G NCP160 567KA 567JZ 711AJ NCP160/D

B25355

Abstract: B32686 300 Vac X2 275 Vac Y1 250 Vac Y2 250 Vac 0,68 mF 0,47 mF 0,33 mF 0,22 mF 0,15 mF 0,10 mF 68 56 47 , 68 47 33 22 15 10 6,8 4,7 3,3 2,2 1,5 1,0 0,68 Merkmale Features mF mF mF mF mF mF mF mF mF mF mF mF mF mF mF mF mF mF mF nF nF nF nF nF nF nF nF nF nF nF nF nF B32560 . B32564 B32591. B32594 B32572 , 630 Vdc 100 Vdc 250 Vdc Kunststoffbecher (UL 94 V-0) Plastic case (UL 94 V-0) SilverCaps , phones, television, automobiles, PCs and lamp ballasts. 0,68 nF . 0,25 mF 1,0 . 12,5 kVdc
EPCOS
Original
B32686 EPCOS B25855 B25834 B25655 CAPACITOR, 150000 MF, 35 VDC festkompensation B32232 B32227 B32237 B32537 B32538

mbr0502

Abstract: 1.5 V to 5.5 V IOUT typical up to 33 mF 250 mA at 3.3 V Output and 2.5 V Input Figure 1. Typical , also be increased. A bypass capacitor of 0.15 mF is required for proper operation when REF is not loaded. If REF is loaded, 1.0 mF capacitor at REF is needed. Shutdown Synchronous Rectifier is used , /250 mA max. VOUT + CIN 10 mF/ 10 V 1 FB 2 LBI 3 LBO NCP1410 VOUT 8 LX 7 GND 6 SHDN 5 CSHDN 56 , calculate the output capacitor value: VOUT-RIPPLE = 40 mVP-P at IOUT = 250 mA COUT > IOUT × tON
ON Semiconductor
Original
mbr0502
Abstract: with a 0.001 mF bypass capacitor) while consuming very low quiescent current (300 mA typical with , VOUT = 2.8 V and a 0.01 mF noise reduction (NR) capacitor. Applications with analog components that , with 2.2 mF Ceramic Capacitor Excellent Load/Line Transient Response Very Low Dropout Voltage: 125 mV , Hz - 100 kHz CNR = 0.01 mF, IOUT = 250 mA PSRR Power-supply rejection ratio (ripple , mF capacitor should be connected from IN to GND. Ground OUT1 3 Output of the regulator. A Texas Instruments
Original
TPS71202 TPS71219 TPS71229 TPS71247 TPS71256 TPS71257
Abstract: a 1 mF output ceramic capacitor. It is available in two thickness ultraâ'small 0.35P, 0.65 mm x , Time Power Supply Rejection Ratio 250 mV mA 1.2 0.4 0.2 COUT = 1 mF, From assertion , 3.33 IOUT = 10 mA and 250 mA 3.32 3.31 3.30 VIN = 4.3 V VOUT = 3.3 V CIN = 1 mF COUT = 1 mF , 5.16 5.15 IOUT = 250 mA 5.14 VIN = 5.5 V VOUT = 5.14 V CIN = 1 mF COUT = 1 mF 5.13 5.12 , CIN = 1 mF COUT = 1 mF 0.30 0.15 0 225 250 0 25 50 75 100 125 150 175 200 225 ON Semiconductor
Original

Si91822DH-20-T1

Abstract: Si91822DH-25-T1 2.2-mF ceramic or tantalum capacitor to ground. Output voltage. Connect COUT between this pin and , Si91822 is stable with any output capacitor type from 1 mF to 10.0 mF. However, X5R or X7R ceramic , source impedance. For practical circuits, a 1.0-mF or larger ceramic capacitor is recommended. When the , capacitor from VOUT to ground. The output capacitor can be any value from 1.0 mF to 10.0 mF. A ceramic , Uses Low ESR Ceramic Output Capacitor Fast Load and Line Transient Response Only 100-mV(rms) Noise
Vishay Siliconix
Original
Si91822DH-20-T1 Si91822DH-25-T1 Si91822DH-28-T1 Si91822DH-30-T1 Si91822DH-15-T1 Si91822DH-18-T1 S-04932--R
Abstract: SD Function Noise bypass pin. For low noise applications, a 0.01-mF or larger ceramic capacitor , CNOISE and COUT. Input supply pin. Bypass this pin with a 2.2-mF ceramic or tantalum capacitor to ground , Si91822 is stable with any output capacitor type from 1 mF to 10.0 mF. However, X5R or X7R ceramic , impedance. For practical circuits, a 1.0-mF or larger ceramic capacitor is recommended. When the source , . The output capacitor can be any value from 1.0 mF to 10.0 mF. A ceramic capacitor with X5R or X7R Vishay Siliconix
Original
S-40646--R
Abstract: , a 0.01-mF or larger ceramic capacitor should be connected from this pin to ground. Capacitor , a 2.2-mF ceramic or tantalum capacitor to ground. Output voltage. Connect COUT between this pin and , Si91822 is stable with any output capacitor type from 1 mF to 10.0 mF. However, X5R or X7R ceramic , impedance. For practical circuits, a 1.0-mF or larger ceramic capacitor is recommended. When the source , . The output capacitor can be any value from 1.0 mF to 10.0 mF. A ceramic capacitor with X5R or X7R Vishay Siliconix
Original
S-40945--R
Abstract: , a 0.01-mF or larger ceramic capacitor should be connected from this pin to ground. Capacitor , a 2.2-mF ceramic or tantalum capacitor to ground. Output voltage. Connect COUT between this pin and , Si91822 is the fastest LDO available today. The Si91822 is stable with any output capacitor type from 1 mF , from 1.0 mF to 10.0 mF. A ceramic capacitor with X5R or X7R dielectric type is recommended for best , Capability Uses Low ESR Ceramic Output Capacitor Fast Load and Line Transient Response Only 100-mV(rms) Noise Vishay Siliconix
Original
Abstract: 1 CNOISE Noise bypass pin. For low noise applications, a 0.01-mF or larger ceramic capacitor , for CNOISE and COUT. Input supply pin. Bypass this pin with a 2.2-mF ceramic or tantalum capacitor to , today. The Si91822 is stable with any output capacitor type from 1 mF to 10.0 mF. However, X5R or X7R , enough source impedance. For practical circuits, a 1.0-mF or larger ceramic capacitor is recommended , . Connect a bypass capacitor from VOUT to ground. The output capacitor can be any value from 1.0 mF to Vishay Siliconix
Original
S-41221
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