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| NDuty 75% NCMOS Low Power Consumption NOperating Voltage NOutput Voltage Range : 0.9V~10.0V : 2.0V~7.0V GCellular phones, pagers GPalmtops GCameras, video recorders GPortable equipment NOutput Voltage Accuracy : 2.5% 4 The XC6382 series is a group of PFM controlled step-up DC/DC converters. The XC6382 series employs CMOS process and laser trimming technologies so as to attain low power and high accuracy. Max. oscillator frequency is trimmed to 100kHz (accuracy: 15%) Every built-in switching transistor type enables a step-up circuit to be configured using only three external components ; a coil, a diode, and a capacitor. External transistor versions are available to accommodate high output current applications. Both built-in and external transistor types include 5-pin and 3-pin packages, which are provided with either a CE (chip enable) function that reduces power consumption during shut-down mode, or a VDD pin function (separating power and voltage detect pins). SOT-23, SOT-25 and SOT-89-5 super mini-mold packages. Operating (start-up) voltage range : 0.9V~10V Output voltage range : 2.0V~7.0V in 0.1V increments Highly accurate : Set-up voltage 2.5% Maximum oscillator frequency : 100kHz (15%) Duty ratio : 75%(5%) Both switching transistor built-in and external types are available. Five-lead packaged units offer either Chip Enable or independent VOUT pin option. Small package : SOT-23, 25 mini-mold (3-pin, 5-pin) SOT-89, 89-5 mini-power mold (3-pin, 5-pin) 487 4 (XC6382A, XC6382B) PIN NUMBER XC6382A SOT-23 1 3 2 - SOT-89 1 2 3 - XC6382B SOT-23 1 3 - 2 SOT-89 1 2 - 3 VSS VOUT Lx EXT Ground Output voltage monitor, IC internal power supply Switch External switch transistor drive PIN NAME FUNCTION (XC6382C, XC6382D) PIN NUMBER XC6382C SOT-25 4 2 5 - 1 3 SOT-89-5 5 2 4 - 3 1 XC6382D SOT-25 4 2 - 5 1 3 SOT-89-5 5 2 - 4 3 1 VSS VDD Lx EXT CE NC Ground Output voltage monitor, IC internal power supply Switch External switch transistor drive Chip enable No connection PIN NAME FUNCTION (XC6382E, XC6382F) PIN NUMBER XC6382E SOT-25 4 2 5 - 1 3 SOT-89-5 5 2 4 - 3 1 XC6382F SOT-25 4 2 - 5 1 3 SOT-89-5 5 2 - 4 3 1 VSS VDD Lx EXT VOUT NC Ground IC internal power supply Switch External switch transistor drive Output voltage monitor No connection PIN NAME FUNCTION 488 GSelection Guide PART TYPE XC6382A DUTY RATIO 75% PACKAGE SOT-23, SOT-89 SOT-23, SOT-89 SOT-25, SOT-89-5 SOT-25, SOT-89-5 SOT-25, SOT-89-5 SOT-25, SOT-89-5 SWITCHING RELATED Built-in Transistor "Lx" lead External Transistor "EXT" lead Built-in Transistor "Lx" lead External Transistor "EXT" lead Built-in Transistor "Lx" lead External Transistor "EXT" lead Chip Enable(CE) ADDITIONAL FUNCTION * Accommodates FEATURES a duty ratio of 75%. XC6382B 75% * Accommodates a duty ratio of 75%. * Adding an external transistor can improve the output capability by up to several hundred mA. * Stand-by * Stand-by * Stand-by XC6382C 75% (CE) function added version to the XC6382A. current: 0.5A max. (CE) function added version to the XC6382B. current: 0.5A max. XC6382D 75% Chip Enable(CE) * Stand-by XC6382E 75% * Independent power supply and set-up voltage Separated "VDD" and "VOUT" leads sensing leads allow designing of PFM controllers. * Independent power supply and set-up voltage Separated "VDD" and "VOUT" leads sensing leads allow designing of PFM controllers. 4 XC6382F 75% GOrdering Information XC6382qwerty XC6382 Series A B q C D E F w e r 1 M t P y R L Package PFM Controlled Duty 75% 3-pin. Built-in switching transistor 3-pin. External switching transistor Stand-by capability. (5-pin) Built-in switching transistor Stand-by capability. (5-pin) External switching transistor Separated VDD and VOUT. (5-pin) Built-in switching transistor Separated VDD and VOUT. (5-pin) External switching transistor Output Voltage e.g.VOUT=3.5V w=3, e=5 Maximum Oscillator Frequency Package q=A~B q=C~F q=A~B q=C~F 100kHz SOT-23 SOT-25 SOT-89 SOT-89-5 Embossed tape : Standard Feed Embossed tape : Reverse Feed 489 GSOT-23 4 GSOT-25 490 GSOT-89 4 GSOT-89-5 491 qwer qwer w q r e 2 1 4 3 q 4 w e r 492 XC6382A~XC6382D (VOUT pin serves as VDD also.) 4 Note: Built-in Tr types use the Lx pin, external Tr types use the EXT pin. The CE pin is only used with the XC6382C and XC6382D. XC6382E and XC6382F Note: The VDD pin is only used with the XC6382E and XC6382F. Built-in Tr types use the Lx pin , external Tr types use the EXT pin. 493 Ta=25C PARAMETER VOUT Input Voltage Lx pin Voltage Lx pin Current EXT pin Voltage EXT pin Current CE Input Voltage VDD Input Voltage Continuous Total Power Dissipation SOT-23 SOT-89 Topr Tstg SYMBOL VOUT VLX ILX VEXT IEXT VCE VDD Pd RATINGS 12 12 400 VSS-0.3~VOUT+0.3 50 12 12 150 500 -30~+80 -40~+125 C C UNITS V V mA V mA V V mW Operating Ambient Temperature 4 Storage Temperature 494 XC6382A301MR PARAMETER Output Voltage VOUT=3.0V SYMBOL VOUT VIN VST VHLD IIN IDD1 IDD2 RSWON ILXL DTY MAXFOSC ISTB VLxLMT EFFI IOUT=1mA IOUT=1mA IOUT=0mA(Note1) VIN=VOUT 0.95 VIN=VOUT+0.5V Same as IDD1. VLX=0.4V. No external components. VOUT=VLX=10V. Same as IDD1. Measuring of Lx waveform. Same as IDD1. 75% duty. Same as IDD1. Same as IDD1, FOSC > MAXFOSC 2 L,SD,CL etc. connected 0.7 80 1.1 70 85 75 100 0.70 4.6 19.7 2.1 5.2 9.3 39.4 4.2 7.9 1.0 80 115 CONDITIONS L,SD,CL etc. connected MIN 2.925 10 0.80 0.90 TYP 3.000 MAX 3.075 Ta=25C UNITS V V V V A A A A % kHz Maximum Input Voltage Oscillation Start-up Voltage Oscillation Hold Voltage No-Load Input Current Supply Current 1 (Note 2) Supply Current 2 Lx Switch-On Resistance Lx Leakage Current Duty Ratio Maximum Oscillation Frequency Stand-by Current Lx Limit Voltage Efficiency 4 V % Measuring conditions: Unless otherwise specified, VIN=VOUT 0.6, IOUT=30mA. See Typical Application Circuits, Fig.1. Note: 1. The Schottky diode (SD) must be type MA735, with reverse current (IR) <1.0A at reverse voltage (VR)=10.0V. 2. "Supply current 1" is the supply current while the oscillator is continuously oscillating. In actual operation the oscillator periodically operates which results in less average power consumption. The current actually provided by an external VIN source is represented by "No-Load Input Current (IIN)". XC6382A501MR PARAMETER Output Voltage VOUT=5.0V SYMBOL VOUT VIN VST VHLD IIN IDD1 IDD2 RSWON ILXL DTY MAXFOSC ISTB VLxLMT EFFI IOUT=1mA IOUT=1mA IOUT=0mA(Note1) VIN=VOUT 0.95 VIN=VOUT+0.5V Same as IDD1. VLX=0.4V. No external components. VOUT=VLX=10V. Same as IDD1. Measuring of Lx waveform. Same as IDD1. 75% duty. Same as IDD1. Same as IDD1, FOSC > MAXFOSC 2 L,SD,CL etc. connected 0.7 85 1.1 70 85 75 100 0.70 5.3 31.7 2.4 2.8 10.6 63.4 4.8 4.3 1.0 80 115 CONDITIONS L,SD,CL etc. connected MIN 4.875 10 0.80 0.90 TYP 5.000 MAX 5.125 Ta=25C UNITS V V V V A A A A % kHz Maximum Input Voltage Oscillation Start-up Voltage Oscillation Hold Voltage No-Load Input Current Supply Current 1 (Note 2) Supply Current 2 Lx Switch-On Resistance Lx Leakage Current Duty Ratio Maximum Oscillation Frequency Stand-by Current Lx Limit Voltage Efficiency V % Measuring conditions: Unless otherwise specified, VIN=VOUT 0.6, IOUT=50mA. See Typical Application Circuits, Fig.1. Note: 1. The Schottky diode (SD) must be type MA735, with reverse current (IR) <1.0A at reverse voltage (VR)=10.0V. 2. "Supply current 1" is the supply current while the oscillator is continuously oscillating. In actual operation the oscillator periodically operates which results in less average power consumption. The current actually provided by an external VIN source is represented by "No-Load Input Current (IIN)". 495 XC6382B301MR PARAMETER Output Voltage VOUT=3.0V SYMBOL VOUT VIN VST VHLD IDD1 IDD2 REXTH REXTL DTY MAXFOSC EFFI IOUT=1mA IOUT=1mA VIN=VOUT 0.95 VIN=VOUT+0.5 Same as IDD1. VEXT=VOUT-0.4V. Same as IDD1. VEXT=0.4V. Same as IDD1. Measuring of EXT waveform. Same as IDD1. 75% duty. L,SD,CL,Tr., etc. connected 70 85 0.70 19.7 2.1 76 76 75 100 80 39.4 4.2 114 114 80 115 CONDITIONS L,SD,CL etc. connected MIN 2.925 10 0.80 0.90 TYP 3.000 MAX 3.075 Ta=25C UNITS V V V V A A % kHz % Maximum Input Voltage Oscillation Start-up Voltage Oscillation Hold Voltage Supply Current 1 (Note 1) Supply Current 2 EXT "High" On Resistance EXT "Low" On Resistance Duty Ratio Maximum Oscillation Frequency 4 Efficiency Measuring conditions: Unless otherwise specified, VIN=VOUT 0.6, IOUT=30mA. See Typical Application circuits, Fig.2. Note: 1. "Supply Current 1" is the supply current while the oscillator is continuously oscillating. In actual operation the oscillator periodically operates which results in less average power consumption. XC6382B501MR PARAMETER Output Voltage VOUT=5.0V SYMBOL VOUT VIN VST VHLD IDD1 IDD2 REXTH REXTL DTY MAXFOSC EFFI IOUT=1mA IOUT=1mA VIN=VOUT 0.95 VIN=VOUT+0.5 Same as IDD1. VEXT=VOUT-0.4V. Same as IDD1. VEXT=0.4V. Same as IDD1. Measuring of EXT waveform. Same as IDD1. 75% duty. L,SD,CL,Tr., etc. connected 70 85 0.70 31.7 2.4 50 50 75 100 85 63.4 4.8 75 75 80 115 CONDITIONS L,SD,CL etc. connected MIN 4.875 10 0.80 0.90 TYP 5.000 MAX 5.125 Ta=25C UNITS V V V V A A % kHz % Maximum Input Voltage Oscillation Start-up Voltage Oscillation Hold Voltage Supply Current 1 (Note 1) Supply Current 2 EXT "High" On Resistance EXT "Low" On Resistance Duty Ratio Maximum Oscillation Frequency Efficiency Measuring conditions: Unless otherwise specified, VIN=VOUT 0.6, IOUT=50mA. See Typical Application circuits, Fig.2. Note: 1. "Supply Current 1" is the supply current while the oscillator is continuously oscillating. In actual operation the oscillator periodically operates which results in less average power consumption. 496 XC6382C301MR VOUT=3.0V SYMBOL VOUT VIN VST VHLD IIN IDD1 IDD2 RSWON ILXL DTY MAXFOSC ISTB VCEH VCEL ICEH ICEL VLxLMT EFFI CONDITIONS L,SD,CL etc. connected IOUT=1mA IOUT=1mA IOUT=0mA (Note1) VIN=VOUT 0.95 VIN=VOUT+0.5V Same as IDD1. VLX=0.4V No external components. VOUT=VLX=10V. Same as IDD1. Measuring of LX waveform. Same as IDD1. 75% duty. Same as IDD1. Same as IDD1. Existence of Lx Oscillation. Same as IDD1. Disapperance of Lx Oscillation. Same as IDD1. VCE=VOUT 0.95. Same as IDD1. VCE=0V. Same as IDD1. L,SD,CL etc. connected 70 85 0.75 0.20 0.25 -0.25 0.7 80 1.1 75 100 MIN 2.925 10 0.70 4.6 19.7 2.1 5.2 9.3 39.4 4.2 7.9 1.0 80 115 0.5 TYP 3.000 0.80 MAX 3.075 0.90 Ta=25C UNITS V V V V A A A A % kHz A V V A A V % PARAMETER Output Voltage Maximum Input Voltage Oscillation Start-up Voltage Oscillation Hold Voltage No-Load Input Current Supply Current 1 (Note 2) Supply Current 2 Lx Switch-On Resistance Lx Leakage Current Duty Ratio Maximum Oscillation Frequency Stand-by Current CE "High" Voltage CE "Low" Voltage CE "High" Current CE "Low" Current Lx Limit Voltage Efficiency 4 Measuring conditions: Unless otherwise specified, connect CE to VOUT, VIN=VOUT 0.6, IOUT=30mA. See Typical Application Circuits, Fig.3. Note: 1. The Schottky diode (SD) must be type MA735, with reverse current (IR) <1.0A at reverse voltage (VR)=10.0V 2. "Supply current 1" is the supply current while the oscillator is continuously oscillating. In actual operation the oscillator periodically operates which results in less average power consumption. The current actually provided by an external VIN source is represented by "No-Load Input Current (IIN)". XC6382C501MR VOUT=5.0V SYMBOL VOUT VIN VST VHLD IIN IDD1 IDD2 RSWON ILXL DTY MAXFOSC ISTB VCEH VCEL ICEH ICEL VLxLMT EFFI CONDITIONS L,SD,CL etc. connected IOUT=1mA IOUT=1mA IOUT=0mA (Note1) VIN=VOUT 0.95 VIN=VOUT+0.5V Same as IDD1. VLX=0.4V No external components. VOUT=VLX=10V. Same as IDD1. Measuring of LX waveform. Same as IDD1. 75% duty. Same as IDD1. Same as IDD1. Existence of Lx Oscillation. Same as IDD1. Disapperance of Lx Oscillation. Same as IDD1. VCE=VOUT 0.95. Same as IDD1. VCE=0V. Same as IDD1. L,SD,CL etc. connected 0.7 85 70 85 0.75 0.20 0.25 -0.25 1.1 75 100 MIN 4.875 10 0.70 5.3 31.7 2.4 2.8 10.6 63.4 4.8 4.3 1.0 80 115 0.5 TYP 5.000 0.80 MAX 5.125 0.90 Ta=25C UNITS V V V V A A A A % kHz A V V A A V % PARAMETER Output Voltage Maximum Input Voltage Oscillation Start-up Voltage Oscillation Hold Voltage No-Load Input Current Supply Current 1 (Note 2) Supply Current 2 Lx Switch-On Resistance Lx Leakage Current Duty Ratio Maximum Oscillation Frequency Stand-by Current CE "High" Voltage CE "Low" Voltage CE "High" Current CE "Low" Current Lx Limit Voltage Efficiency Measuring conditions: Unless otherwise specified, connect CE to VOUT, VIN=VOUT 0.6, IOUT=50mA. See Typical Application Circuits, Fig.3. Note: 1. The Schottky diode (SD) must be type MA735, with reverse current (IR) <1.0A at reverse voltage (VR)=10.0V 2. "Supply current 1" is the supply current while the oscillator is continuously oscillating. In actual operation the oscillator periodically operates which results in less average power consumption. The current actually provided by an external VIN source is represented by "No-Load Input Current (IIN)". 497 XC6382D301MR PARAMETER Output Voltage VOUT=3.0V SYMBOL VOUT VIN VST VHLD IDD1 IDD2 REXTH REXTL DTY MAXFOSC ISTB VCEH VCEL ICEH ICEL EFFI IOUT=1mA IOUT=1mA VIN=VOUT 0.95 VIN=VOUT+0.5V Same as IDD1. VEXT=VOUT-0.4V. Same as IDD1. VEXT=0.4V. Same as IDD1. Measuring of EXT waveform. Same as IDD1. 75% duty. Same as IDD1. Same as IDD1. Existence of EXT Oscillation. Same as IDD1. Disappearance of EXT Oscillation. Same as IDD1. VCE=VOUT 0.95. Same as IDD1. VCE=0V. L,SD,CL,Tr., etc. connected 80 0.75 0.20 0.25 -0.25 70 85 0.70 19.7 2.1 76 76 75 100 39.4 4.2 114 114 80 115 0.5 CONDITIONS L,SD,CL,Tr., etc. connected MIN 2.925 10 0.80 0.90 TYP 3.000 MAX 3.075 Ta=25C UNITS V V V V A A % kHz A V V A A % Maximum Input Voltage Oscillation Start-up Voltage Oscillation Hold Voltage Supply Current 1 (Note1) Supply Current 2 EXT "High" On Resistance EXT "Low" On Resistance Duty Ratio Maximum Oscillation Frequency 4 Stand-by Current CE "High" Voltage CE "Low" Voltage CE "High" Current CE "Low" Current Efficiency Measuring conditions: Unless otherwise specified, connect CE to VOUT, VIN=VOUT 0.6, IOUT=30mA. See Typical Application Circuits, Fig.4. Note: 1. The Schottky diode (SD) must be type MA735, with reverse current (IR) <1.0A at reverse voltage (VR)=10.0V. 2. "Supply current 1" is the supply current while the oscillator is continuously oscillating. In actual operation the oscillator periodically operates which results in less average power consumption. The current actually provided by an external VIN source is represented by "No-Load Input Current (IIN)". XC6382D501MR PARAMETER Output Voltage VOUT=5.0V SYMBOL VOUT VIN VST VHLD IDD1 IDD2 REXTH REXTL DTY MAXFOSC ISTB VCEH VCEL ICEH ICEL EFFI IOUT=1mA IOUT=1mA VIN=VOUT 0.95 VIN=VOUT+0.5V Same as IDD1. VEXT=VOUT-0.4V. Same as IDD1. VEXT=0.4V. Same as IDD1. Measuring of EXT waveform. Same as IDD1. 75% duty. Same as IDD1. Same as IDD1. Existence of EXT Oscillation. Same as IDD1. Disappearance of EXT Oscillation. Same as IDD1. VCE=VOUT 0.95. Same as IDD1. VCE=0V. L,SD,CL,Tr., etc. connected 85 0.75 0.20 0.25 -0.25 70 85 0.70 31.7 2.4 50 50 75 100 63.4 4.8 75 75 80 115 0.5 CONDITIONS L,SD,CL,Tr., etc. connected MIN 4.875 10 0.80 0.90 TYP 5.000 MAX 5.125 Ta=25C UNITS V V V V A A % kHz A V V A A % Maximum Input Voltage Oscillation Start-up Voltage Oscillation Hold Voltage Supply Current 1 (Note1) Supply Current 2 EXT "High" On Resistance EXT "Low" On Resistance Duty Ratio Maximum Oscillation Frequency Stand-by Current CE "High" Voltage CE "Low" Voltage CE "High" Current CE "Low" Current Efficiency Measuring conditions: Unless otherwise specified, connect CE to VOUT, VIN=VOUT 0.6, IOUT=50mA. See Typical Application Circuits, Fig.4. Note: 1. The Schottky diode (SD) must be type MA735, with reverse current (IR) <1.0A at reverse voltage (VR)=10.0V. 2. "Supply current 1" is the supply current while the oscillator is continuously oscillating. In actual operation the oscillator periodically operates which results in less average power consumption. The current actually provided by an external VIN source is represented by "No-Load Input Current (IIN)". 498 XC6382E301MR PARAMETER Output Voltage VOUT=3.0V SYMBOL VOUT VIN VST VHLD IIN IDD1 IDD2 RSWON ILXL DTY MAXFOSC VLxLMT EFFI IOUT=1mA. IOUT=1mA. IOUT=0mA (Note1) VIN=VOUT 0.95 VIN=VOUT+0.5V Same as IDD1. VLX=0.4V. No external components. VOUT=VLX=10V. Same as IDD1. Measuring of LX waveform. Same as IDD1. 75% duty. Same as IDD1. FOSC > MAXFOSC 2 L, SD, CL etc. connected 70 85 0.7 80 75 100 0.70 4.6 19.7 2.1 5.2 9.3 39.4 4.2 7.9 1.0 80 115 1.1 CONDITIONS L, SD, CL etc. connected MIN 2.925 10 0.80 0.90 TYP 3.000 MAX 3.075 Ta=25C UNITS V V V V A A A A % kHz V % Maximum Input Voltage Oscillation Start-up Voltage Oscillation Hold Voltage No-Load Input Current Supply Current 1 (Note 2) Supply Current 2 Lx Switch-On Resistance Lx Leakage Current Duty Ratio Maximum Oscillation Frequency Lx Limit Voltage Efficiency 4 Measuring conditions: Unless otherwise specified, connect VDD to VOUT, VIN=VOUT 0.6, IOUT=30mA. See Typical Application Circuits, Fig.5. Note: 1. The Schottky diode (SD) must be type MA735, with reverse current (IR) <1.0A at reverse voltage (VR)=10.0V 2. "Supply current 1" is the supply current while the oscillator is continuously oscillating. In actual operation the oscillator periodically operates which results in less average power consumption. The current actually provided by an external VIN source is represented by "No-Load Input Current (IIN)". When the VDD and VOUT pins are independently used, the voitage range at the VDD pin should be 2.2V to 10V. The IC operates from VDD=0.8V. However, output voltage and oscillator frequency are properly stabilized when VDD=2.2V or higher. * XC6382E501MR PARAMETER Output Voltage VOUT=5.0V SYMBOL VOUT VIN VST VHLD IIN IDD1 IDD2 RSWON ILXL DTY MAXFOSC VLxLMT EFFI IOUT=1mA. IOUT=1mA. IOUT=0mA (Note1) VIN=VOUT 0.95 VIN=VOUT+0.5V Same as IDD1. VLX=0.4V. No external components. VOUT=VLX=10V. Same as IDD1. Measuring of LX waveform. Same as IDD1. 75% duty. Same as IDD1. FOSC > MAXFOSC 2 L, SD, CL etc. connected 70 85 0.7 85 75 100 0.70 5.3 31.7 2.4 2.8 10.6 63.4 4.8 4.3 1.0 80 115 1.1 CONDITIONS L, SD, CL etc. connected MIN 4.875 10 0.80 0.90 TYP 5.000 MAX 5.125 Ta=25C UNITS V V V V A A A A % kHz V % Maximum Input Voltage Oscillation Start-up Voltage Oscillation Hold Voltage No-Load Input Current Supply Current 1 (Note 2) Supply Current 2 Lx Switch-On Resistance Lx Leakage Current Duty Ratio Maximum Oscillation Frequency Lx Limit Voltage Efficiency Measuring conditions: Unless otherwise specified, connect VDD to VOUT, VIN=VOUT 0.6, IOUT=50mA. See Typical Application Circuits, Fig.5. Note: 1. The Schottky diode (SD) must be type MA735, with reverse current (IR) <1.0A at reverse voltage (VR)=10.0V 2. "Supply current 1" is the supply current while the oscillator is continuously oscillating. In actual operation the oscillator periodically operates which results in less average power consumption. The current actually provided by an external VIN source is represented by "No-Load Input Current (IIN)". When the VDD and VOUT pins are independently used, the voitage range at the VDD pin should be 2.2V to 10V. The IC operates from VDD=0.8V. However, output voltage and oscillator frequency are properly stabilized when VDD=2.2V or higher. * 499 XC6382F301MR PARAMETER Output Voltage VOUT=3.0V SYMBOL VOUT VIN VST VHLD IDD1 IDD2 REXTH REXTL DTY MAXFOSC EFFI IOUT=1mA IOUT=1mA VIN=VOUT 0.95 VIN=VOUT+0.5V Same as IDD1. VEXT=VOUT-0.4V. Same as IDD1. VEXT=0.4V. Same as IDD1. Measuring of EXT waveform. Same as IDD1. 75% duty. L, SD, CL etc. connected 70 85 0.70 19.7 2.1 76 76 75 100 80 39.4 4.2 114 114 80 115 CONDITIONS L, SD, CL etc. connected MIN 2.925 10 0.80 0.90 TYP 3.000 MAX 3.075 Ta=25C UNITS V V V V A A % kHz % Maximum Input Voltage Oscillation Start-up Voltage Oscillation Hold Voltage Supply Current 1 (Note1) Supply Current 2 EXT "High" On Resistance EXT "Low" On Resistance Duty Ratio Maximum Oscillation Frequency Efficiency 4 Measuring conditions: Unless otherwise specified, connect VDD to VOUT, VIN=VOUT 0.6, IOUT=30mA. See Typical Application Circuits, Fig.6. Note: 1. "Supply current 1" is the supply current while the oscillator is continuously oscillating. In actual operation the oscillator periodically operates which results in less average power consumption. When the VDD and VOUT pins are independently used, the voltage range at the VDD pin should be 2.2V to 10V. The IC operates from VDD=0.8V. However, output voltage and oscillator frequency are properly stabilized when VDD=2.2V or higher. * XC6382F501MR PARAMETER Output Voltage VOUT=5.0V SYMBOL VOUT VIN VST VHLD IDD1 IDD2 REXTH REXTL DTY MAXFOSC EFFI IOUT=1mA IOUT=1mA VIN=VOUT 0.95 VIN=VOUT+0.5V Same as IDD1. VEXT=VOUT-0.4V. Same as IDD1. VEXT=0.4V. Same as IDD1. Measuring of EXT waveform. Same as IDD1. 75% duty. L, SD, CL etc. connected 70 85 0.70 31.7 2.4 50 50 75 100 85 63.4 4.8 75 75 80 115 CONDITIONS L, SD, CL etc. connected MIN 4.875 10 0.80 0.90 TYP 5.000 MAX 5.125 Ta=25C UNITS V V V V A A % kHz % Maximum Input Voltage Oscillation Start-up Voltage Oscillation Hold Voltage Supply Current 1 (Note1) Supply Current 2 EXT "High" On Resistance EXT "Low" On Resistance Duty Ratio Maximum Oscillation Frequency Efficiency Measuring conditions: Unless otherwise specified, connect VDD to VOUT, VIN=VOUT 0.6, IOUT=50mA. See Typical Application Circuits, Fig.6. Note: 1. "Supply current 1" is the supply current while the oscillator is continuously oscillating. In actual operation the oscillator periodically operates which results in less average power consumption. When the VDD and VOUT pins are independently used, the voltage range at the VDD pin should be 2.2V to 10V. The IC operates from VDD=0.8V. However, output voltage and oscillator frequency are properly stabilized when VDD=2.2V or higher. * 500 L : 100H (SUMIDA, CR-54) SD : MA2Q735 (Schottky diode; MATSUSHITA) CL : 16V 47F (Tantalum capacitor; NICHICON, MCE) CIN : 16V 220F (Aluminium Electrolytic Capacitor) L: SD : CL : CIN : RB : Tr : 47H (SUMIDA, CR-54) MA2Q735 (Schottky diode; MATSUSHITA) 16V 47F (Tantalum capacitor; NICHICON, MCE) 16V 220F (Aluminium Electrolytic Capacitor) 1k, CB: 3300pF 4 2SC3279, 2SD1628G Fig.1 XC6382A Application Fig.2 XC6382B Application L : 100H (SUMIDA, CR-54) SD : MA2Q735 (Schottky diode; MATSUSHITA) CL : 16V 47F (Tantalum capacitor; NICHICON, MCE) CIN : 16V 220F (Aluminium Electrolytic Capacitor) L : 47H (SUMIDA, CR-54) SD : MA2Q735 (Schottky diode; MATSUSHITA) CL : 16V 47F (Tantalum capacitor; NICHICON, MCE) CIN : 16V 220F (Aluminium Electrolytic Capacitor) RB : 1k, CB: 3300pF Tr : 2SC3279, 2SD1628G Fig.3 XC6382C Application Fig.4 XC6382D Application 501 4 L : 100H (SUMIDA, CR-54) SD : MA2Q735 (Schottky diode; MATSUSHITA) CL : 16V 47F (Tantalum capacitor; NICHICON, MCE) CIN : 16V 220F (Aluminium Electrolytic Capacitor) L: SD : CL : CIN : RB : Tr : 47H (SUMIDA, CR-54) MA2Q735 (Schottky diode; MATSUSHITA) 16V 47F (Tantalum capacitor; NICHICON, MCE) 16V 220F (Aluminium Electrolytic Capacitor) 1k, CB: 3300pF 2SC3279, 2SD1628G Fig.5 XC6382E Application Fig.6 XC6382F Application 502 (1) OUTPUT VOLTAGE vs. OUTPUT CURRENT 4 (2) EFFICIENCY vs. OUTPUT CURRENT (3) RIPPLE VOLTAGE vs. OUTPUT CURRENT 503 This datasheet has been downloaded from: www..com Datasheets for electronic components. |
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