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XC9110A161MR Datasheet(PDF) 9 Page - Torex Semiconductor |
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XC9110A161MR Datasheet(HTML) 9 Page - Torex Semiconductor |
9 / 35 page 9/35 XC9110/XC9111 Series PARAMETER SYMBOL CONDITIONS MIN. TYP. MAX. UNIT CIRCUIT Output Voltage VOUT Connect to external components × 0.975 VOUT × 1.025 V ⑥ Output Voltage Temperature Characteristics △ VOUT △ VOUT・△topr Connect to external components - 40℃≦Topr≦85℃ - ± 100 - ppm/ ℃ ⑥ Maximum Input Voltage VIN 10 - - V - Operation Start Voltage VST1 IOUT=1mA, connect to external components - 0.8 0.9 V ⑥ Oscillation Start Voltage VST2 Applied 0.8V to VOUT - - 0.8 V ⑦ Operation Hold Voltage VHLD IOUT=1mA, connect to external components 0.7 - - V ⑥ Supply Current 1 (*1) IDD1 Applied (output voltage×0.95) to VOUT - E2-1(*) E2-2(*) μ A ⑦ Supply Current 2 IDD2 Applied (output voltage+0.5V) to VOUT - E3-1(*) E3-2(*) μ A ⑦ EXT H ON Resistance REXTH Same as IDD1, VEXT=VOUT-0.4(*2) - E5-1(*) E5-2(*) Ω ② EXT L ON Resistance REXTL Same as IDD1, VEXT=0.4V(*3) - E6-1(*) E6-2(*) Ω ② Duty Ratio DTY Same as IDD1, measure Lx waveform E7-1(*) E7-2(*) E7-3(*) % ⑦ Duty Ratio 2 DTY2 IOUT=1mA, measure Lx ON time (XC9111 only) Connect to external components 48 56 64 % ⑥ Maximum Oscillation MAXFOSC Same as IDD1 85 100 115 kHz ⑦ Maximum Oscillation MAXFOSC Same as IDD1 (XC9111 only) 153 180 207 kHz ⑦ Standby Current ISTB Same as IDD1, VCE=0V - - 0.50 μ A ⑤ CE “High” Voltage VCEH Same as IDD1, determine Lx oscillation 0.75 - - V ⑧ CE “Low” Voltage VCEL Same as IDD1, determine Lx shut-down - - 0.20 V ⑧ CE “High” Current ICEH Same as IDD1, VCE=VOUT×0.95 - - 0.25 μ A ⑤ CE “Low” Current ICEL Same as IDD1, VCE=0V - - -0.25 μ A ⑤ Efficiency (*4) EFFI Connect to external components - E8(*) - % ⑥ Test condition : Unless otherwise specified, connect CE to VOUT, VIN=VOUT×0.6, IOUT=<C1(*)> NOTE: *1: "Supply Current 1" is the value when the IC is constantly switching. In actual operation, the oscillator periodically switches, resulting in lower power consumption. *2: EXT H ON resistance can be calculated by (0.4 x Rp) / (VEXT - Vpull). * Change Vpull so that VEXT will become VOUT-0.4V. *3: EXT L ON resistance can be calculated by (VEXT x Rp) / (Vpull - VEXT). * Change Vpull so that VEXT will become 0.4V. *4: EFFI={[output voltage]×(output current)} / [(input voltage)×(input current)]×100 *5: Please be aware of the absolute maximum ratings of the external components. (*): Please refer to the charts. Ta = 25℃ XC9110Dxx1MR, XC9111Dxx1MR ■ ELECTRICAL CHARACTERISTICS (Continued) |
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