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DUALOUTPUT-ISOFLYBACK-REF Texas Instruments Dual Output Isolated Flyback Design: 5V @ 0.2A, 12V @ 2.1A w/2 addl out 3.3V @ 0.5A, 5V @ 0.5A visit Texas Instruments
LMZ10500SEX/NOPB Texas Instruments SWITCHING REGULATOR visit Texas Instruments
LM3218SEE/NOPB Texas Instruments SWITCHING REGULATOR visit Texas Instruments
LMZ10500SE/NOPB Texas Instruments SWITCHING REGULATOR visit Texas Instruments
TPS62365YZHT Texas Instruments SWITCHING REGULATOR visit Texas Instruments
TPS62365YZHR Texas Instruments SWITCHING REGULATOR visit Texas Instruments

1V output switching regulator

Catalog Datasheet MFG & Type PDF Document Tags

LTM4615

Abstract: 82UF output (1.8V, 2.5V, 1V) uModule regulator design. 24 into a single chip, with the following , -per -regulator maximum output current, the two switching regulators can be tied together to form a paralleled , 4.7uF 3.32k VOUT3 1V 1.5A PGOOD3 GND Figure 3. Single switching regulator input (5V) and single linear regulator input (1.5V) to triple output (1.8V, 2.5V, 1V) uModule regulator design VIN 5V , the linear regulator serving up a third output (1V) from an input tied to VOUT1 (1.8V) 25
Linear Technology
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PN3904

Abstract: PC mother board power PC soft start circuit the power components. Trace 1 - Regulator Output Voltage (1V/div.) Trace 2 - Inductor Switching , Regulator Output Voltage (1V/div.) Trace 2 - Inductor Switching Node (5V/div.) Trace 3 - Output Current , high for the duration of the extended off time. This time is Trace 1 - Regulator Output Voltage (1V , Regulator Output Voltage (10V/div.) Trace 2 - Inductor Switching Node (5V/div.) Figure 6: Peak-to-peak , regulation. This results in changes in regulator switching frequency, duty cycle, and output ripple in
Cherry Semiconductor
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CS5155

Abstract: IRL3103 Figures 5 and 6). Trace 1 - Regulator Output Voltage (1V/div.) Trace 2 - Inductor Switching Node (2V , time timer. If the maximum on time is exceeded before the regulator output voltage achieves the 1V , will drive high, and the cycle repeats. 6 When regulator output voltage achieves the 1V level , . Trace 1 - Regulator Output Voltage (10V/div.) Trace 2 - Inductor Switching Node (5V/div.) Figure 5: Peak-to-peak ripple on VOUT = 2.8V, IOUT = 0.5A (light load). Trace 1 - Regulator Output Voltage (1V/div
Cherry Semiconductor
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PN3904

Abstract: capacitor 10v 33MF Voltage (10mV/div.) Trace 2 - Inductor Switching Node (5V/div.) Trace 1 - Regulator Output Voltage (1V , .) Trace1 = Regulator Output Voltage (1V/div.) Trace 2 = Inductor Switching Node (5V/div.) Figure 14 , maximum on time is exceeded before the regulator output voltage achieves the 1V level, the pulse is , the cycle repeats. When regulator output voltage achieves the 1V level present at the COMP pin , (see Figure 4). Trace 1 - Regulator Output Voltage (5V/div.) Trace 2 - Inductor Switching Node (5V
Cherry Semiconductor
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12v 10A regulator

Abstract: PN3904 Voltage (10mV/div.) Trace 2 - Inductor Switching Node (5V/div.) Trace 1 - Regulator Output Voltage (1V , .) Trace1 = Regulator Output Voltage (1V/div.) Trace 2 = Inductor Switching Node (5V/div.) Figure 14 , maximum on time is exceeded before the regulator output voltage achieves the 1V level, the pulse is , the cycle repeats. When regulator output voltage achieves the 1V level present at the COMP pin , (see Figure 4). Trace 1 - Regulator Output Voltage (5V/div.) Trace 2 - Inductor Switching Node (5V
Analog Devices
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IN5818 diode

Abstract: IN4148 inductor. Trace1 - Regulator Output Voltage (1V/div.) Trace 2 - Inductor Switching Node (5V/div , , the GateH pin will drive high, and the cycle repeats. When regulator output voltage achieves the 1V , changes in regulator switching frequency, duty cycle, and output ripple in response to changes in load , the output capacitors (see Figures 5 and 6). Trace 1 - Regulator Output Voltage (1V/div.) Trace 2 , (light load). Trace 1 - Regulator Output Voltage (1V/div.) Trace 3 - COMP Pin (error amplifier output
Cherry Semiconductor
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Abstract: time timer. If the maximum on time is exceeded before the regulator output voltage achieves the 1V , drive high, and the cycle repeats. When regulator output voltage achieves the 1V level present at the , ). Trace 1 - Regulator Output Voltage (5V/div.) Trace 2 - Inductor Switching Node (5V/div.) Figure 4: CS5157H demonstration board enable startup waveforms. Trace 1 - Regulator Output Voltage (1V , 2.80V Trace 1 - Regulator Output Voltage (10mV/div.) Trace 2 - Inductor Switching Node (5V/div Cherry Semiconductor
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CS5120/5121 F/10V IRL3103 F/25V MS-012 CS5157HGD16
Abstract: time timer. If the maximum on time is exceeded before the regulator output voltage achieves the 1V , drive high, and the cycle repeats. When regulator output voltage achieves the 1V level present at the , ). Trace 1 - Regulator Output Voltage (5V/div.) Trace 2 - Inductor Switching Node (5V/div.) Figure 4: CS5157H demonstration board enable startup waveforms. Trace 1 - Regulator Output Voltage (1V , 2.80V Trace 1 - Regulator Output Voltage (10mV/div.) Trace 2 - Inductor Switching Node (5V/div ON Semiconductor
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CS5157HGDR16

PN3904

Abstract: in4148 smd diode , the GateH pin will drive high, and the cycle repeats. When regulator output voltage achieves the 1V , changes in regulator switching frequency, duty cycle, and output ripple in response to changes in load , the output capacitors (see Figures 5 and 6). Trace 1 - Regulator Output Voltage (1V/div.) Trace 2 , (light load). Trace 1 - Regulator Output Voltage (1V/div.) Trace 3 - COMP Pin (error amplifier output , Switching Node (5V/div.) Trace 3 - Output Current (0.5 to 13 Amps) (10A/div.) Trace1 - Regulator Output
Cherry Semiconductor
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CS5157 PN3904 in4148 smd diode IN4148 MMUN2111T1 9410DY 4410DY CS5157GD16 CS5157GDR16
Abstract: Inductor Switching Node (5V/div.) Trace 1 - Regulator Output Voltage (1V/div.) Trace 3 - COMP Pin (error , Regulator Output Voltage (1V/div.) Trace 2 = Inductor Switching Node (5V/div.) Figure 12: OVP response , time timer. If the maximum on time is exceeded before the regulator output voltage achieves the 1V , will drive high, and the cycle repeats. When regulator output voltage achieves the 1V level present , regulator switching frequency, duty cycle, and output ripple in response to changes in load and line Cherry Semiconductor
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CS5158 CS5158GD16 CS5158GDR16

PN3904

Abstract: CS5157 Regulator Output Voltage (1V/div.) Trace 2 = Inductor Switching Node (5V/div.) Figure 12: OVP response , regulator output voltage achieves the 1V level, the pulse is terminated. The GateH pin drives low, and the , . This results in changes in regulator switching frequency, duty cycle, and output ripple in response , Regulator Output Voltage (10mV/div.) Trace 2 - Inductor Switching Node (5V/div.) Trace 1 - Regulator , /div.) Trace1 - Regulator Output Voltage (10mV/div.) Trace 2 - Inductor Switching Node (5V/div
Cherry Semiconductor
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in4148 smd
Abstract: . Trace 1 - Regulator Output Voltage (1V/div.) Trace 2 - Inductor Switching Node (2V/div.) Trace 3 - 12V , Switching Node (5V/div.) Trace 1 - Regulator Output Voltage (1V/div.) Trace 3 - COMP Pin (error amplifier , before the regulator output voltage achieves the 1V level, the pulse is terminated. The GateH pin drives , .) Trace 2 - Inductor Switching Node (5V/div.) Trace 1 - Regulator Output Voltage (100mV/div.) Trace 2 - , less than 20us. Trace1 - Regulator Output Voltage (100mV/div.) Trace 2 - Inductor Switching Node (5V ON Semiconductor
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MBRS120

8 NARROW SO

Abstract: maximum on time is exceeded before the regulator output voltage achieves the 1V level, the pulse is , repeats. When regulator output voltage achieves the 1V level present at the COMP pin, regulation has been , 1 - Regulator Output Voltage (5V/div.) Trace 2 - Inductor Switching Node (5V/div.) Figure 4: CS5157 demonstration board enable startup waveforms. Trace 1 - Regulator Output Voltage (1V/div , regulation. This results in changes in regulator switching frequency, duty cycle, and output ripple in
ON Semiconductor
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8 NARROW SO

LT1172 boost converter 60v

Abstract: op 50Mhz dip , MSOP LT1610 1.7MHz Single Cell Switching Regulator 1V 3V at 30mA from single cell LT1613 , capacitors LT1615/LT1615-1 Micropower Step-Up Sw. Regulator in SOT-23 1V IQ = 20uA; output to 34V , 1A Switch PWM Switching Regulator 1.5V 10V at 175mA output from 3.3V input LTC1986 3V/5V , Converter Micropower DC/DC Converter Micropower DC/DC Converter LT1172 100kHz Switching Regulator, 1.25A Switch LT1373/2/7 250kHz/500kHz/1MHz Boost Switching Regulators 1V/2V 2V 1V/2V 3V
Linear Technology
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LT1109 LTC1046 LT1300 LT1301 LT1302 LT1303 LT1172 boost converter 60v op 50Mhz dip Smart High-Side Power Switch 1 Channel 3V REGULATOR SOT-23 CMOS RS232 Level Converter to 2.8V dual high side MOSFET driver with charge pump LT1107/1108 LT1110/1111
Abstract: startup waveforms. Trace 1 - Regulator Output Voltage (1V/div.) Trace 2 - Inductor Switching Node (2V , Regulator Output Voltage (1V/div.) Trace 2 - Inductor Switching Node (5V/div.) Trace 3 - Output Current (0.5 , resume. Trace1 - Regulator Output Voltage (1V/div.) Trace 2 - Inductor Switching Node (5V/div.) Trace , the maximum on time is exceeded before the regulator output voltage achieves the 1V level, the pulse , - Regulator Output Voltage (1V/div.) Trace 3 - COMP Pin (error amplifier output) (1V/div.) Trace 4 - Cherry Semiconductor
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CS5156H CS5151 CS5150H/5151H MBR1535CT CS5156HGD16 CS5156HGDR16

PN3904

Abstract: CS5157H Inductor Switching Node (5V/div.) Trace 1 - Regulator Output Voltage (1V/div.) Trace 3 - COMP Pin (error , timer. If the maximum on time is exceeded before the regulator output voltage achieves the 1V level , drive high, and the cycle repeats. When regulator output voltage achieves the 1V level present at the , regulator switching frequency, duty cycle, and output ripple in response to changes in load and line , capacitors (see Figures 5 and 6). Trace 1 - Regulator Output Voltage (1V/div.) Trace 2 - Inductor
Cherry Semiconductor
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capacitor 12v 33MF

Abstract: IRL3103 , minimizing stress to the power components. Trace 1 - Regulator Output Voltage (1V/div.) Trace 2 - , before the regulator output voltage achieves the 1V level, the pulse is terminated. The Gate pin drives , 1 - Regulator Output Voltage (1V/div.) Trace 3 - COMP Pin (error amplifier output) (1V/div.) Trace , (see Figure 4). Trace1 - Regulator Output Voltage (10V/div.) Trace 2 - Inductor Switching Node (5V , changes in regulator switching frequency, duty cycle, and output ripple in response to changes in load
Cherry Semiconductor
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capacitor 12v 33MF MBR735 CS-5151 CS-5156 CS-5155/5156 CS-5120/5121 CS-5151D16 CS-5151N16
Abstract: 1 - Regulator Output Voltage (1V/div.) Trace 2 - Inductor Switching Node (2V/div.) Trace 3 - 12V , Regulator Output Voltage (1V/div.) Trace 2 - Inductor Switching Node (5V/div.) Trace 3 - Output Current (13 , regulator output voltage achieves the 1V level, the pulse is terminated. The Gate pin drives low for the , repeats. When regulator output voltage achieves the 1V level present at the COMP pin, regulation has been , Regulator Output Voltage (1V/div.) Trace 3 - COMP Pin (error amplifier output) (1V/div.) Trace 4 - Soft Cherry Semiconductor
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CS5156 CS5155/5156 MS-001 CS5151GD16 CS5151GDR16 CS5151GN16

5V 2A SW regulator

Abstract: 35mâ"¦ Internal Power MOSFET 1MHz Fixed Switching Frequency Adjustable Output from 0.608V to VIN , output capacitor with low impedance at the switching frequency. Use ceramic capacitors with X5R or X7R , . 13 MP2122 â'"6V, 2A, LOW QUIESCENT CURRENT, DUAL, SYNC BUCK REGULATOR â'¢ Switching Loss (SW , MP2122 6V, 2A, Low Quiescent Current Dual, SYNC Buck Regulator The Future of Analog IC , PWM, synchronous, step-down regulator. The MP2122 operates from a 2.7V-to-6V input, generates an
Monolithic Power Systems
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5V 2A SW regulator TSOT23-8
Abstract: 1 - Regulator Output Voltage (1V/div.) Trace 2 - Inductor Switching Node (2V/div.) Trace 3 - 12V , regulator output voltage achieves the 1V level, the pulse is terminated. The Gate pin drives low for the , repeats. When regulator output voltage achieves the 1V level present at the COMP pin, regulation has been , Regulator Output Voltage (1V/div.) Trace 3 - COMP Pin (error amplifier output) (1V/div.) Trace 4 - Soft , Trace 1 - Regulator Output Voltage (5V/div.) Trace 2 - Inductor Switching Node (5V/div.) Figure 4 Cherry Semiconductor
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