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| NCMOS Low Power Consumption NPFM Controlled, Step-Up DC/DC Converter N5 Level Window Comparator NVoltage Detector x 2 ( Independent Power Supply ) NTSSOP-16 Package GBattery Powered Equipment GVarious Portable Equipment The XC651A series are step-up DC/DC converter and multi voltage detector IC s. CMOS processes and laser trimming technology provide high accuracy and low power consumption. The XC651A comprises of a PFM controlled step-up DC/DC converter, a voltage detector with 4 x 5 level window comparators built-in, plus 2 other voltage detectors. The step-up DC/DC converter's EN pin ( chip enable ) provides power consumption savings when the step-up operations are not operating ( stand-by mode ). The series is available in a small TSSOP-16 package. Independent power supply for each built-in block : Each of the following built-in blocks is operated by a separate power supply : PFM controlled, step-up DC/DC converter ( PFM DC/DC ) 5 level window comparator ( MWVD ) Negative Logic : XC651A3 Series Positive Logic : XC651A4 Series Voltage detector 1 with built-in delay circuit ( VD1 ) Voltage detector 2 ( VD2 ) Highly accurate set-up voltage : PFM controlled, step-up DC/DC converter : set-up voltage accuracy 2.5% 5 level window comparator : set-up voltage accuracy 2% Voltage detectors 1, 2 : set-up voltage accuracy 2% Set-up voltage range : PFM controlled, step-up DC/DC converter : 2.0V ~ 3.0V ( selectable in 0.1V steps) 5 level window comparator : 1.1V ~ 2.5V * ( selectable in 0.1V steps ) Voltage detectors 1, 2 : 0.9V ~ 3.0V ( selectable in 0.1V steps ) Operational voltage range : 0.9V ~ 6.0V Small Package : TSSOP-16 * Note : The set-up voltage of the 5 level window comparator cannot be freely set-up due to the limitations of the circuit. Please also note that the set-up voltage range of MWVD1 is 1.0V ~ 1.8V. 10 669 PIN NUMBER 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 PIN NAME MWVDIN RIP MWOUT1 MWOUT2 MWOUT3 MWOUT4 CD VIN1 VDET1 VDET2 VIN2 EN VSS Lx EXT VOUT FUNCTION MWVD detect, MWVD current MWVD ripple exclusion capacitor connection MWVD output 1 MWVD output 2 MWVD output 3 MWVD output 4 VD1 delay time set-up capacitor connection VD1 detect, VD1 current VD1 output VD2 output VD2 detect, VD2 current DC/DC enable Ground pin ( common ) DC/DC built-in transistor switch output DC/DC external transistor drive output DC/DC output voltage monitor, DC/DC current GOrdering Information q we q w e GTSSOP-16 10 670 GTSSOP-16 1) Overall Composition 10 Note 1 : The VSS pin is common to each block. Note 2 : The VDD pin is independent of each block. 671 2) PFM DC/DC Note 1 : The VSS pin is common to each block. Note 2 : VDD is independent for each block. 3) MWVD 10 Note 1 : The VSS pin is common to each block. Note 2 : VDD is independent for each block. Note 3 : Applies to the XC6514 Series (Positive Logic) only. 672 4) VD 1 Note 1 : The VSS pin is common to each block. Note 2 : VDD is independent for each block. 5) VD 2 10 Note 1 : The VSS pin is common to each block. Note 2 : VDD is independent for each block. 673 PARAMETER Output Voltage Lx Pin Voltage Lx Pin Current EXT Pin Voltage EXT Pin Current EN Input Voltage MWVDIN Input Voltage RIP Input Voltage MWOUT Output Voltage MWOUT Output Current VIN Input Voltage VDET Output Voltage VDET Output Current CD Input Voltage Continuous Total Power Dissipation Operating Ambient Temperature Storage Temperature SYMBOL VOUT VLX ILX VEXT IEXT VEN MWVDIN VRIP VMWOUT IMWOUT VIN VDET IDET VCD Pd Topr Tstg CONDITIONS 9 9 400 -0.3 ~ VOUT + 0.3 50 -0.3 ~ VOUT + 0.3 9 -0.3 ~ MWVDIN + 0.3 9 50 9 9 50 -0.3 ~ VIN1 + 0.3 350 -30 ~ +80 -40 ~ +125 Ta=25 OC UNITS V V mA V mA V V V V mA V V mA V mW O O C C (note that the above is a sample part number and that actual part numbers will differ) 10 Set-Up Voltage BLOCK 1. PFM DC/DC 2. MWVD PARAMETER Output Voltage MWOUT1 detect voltage MWOUT2 detect voltage MWOUT3 detect voltage MWOUT4 detect voltage Detect Voltage 1 Detect Voltage 2 SYMBOL VOUT VDFMW1 VDFMW2 VDFMW3 VDFMW4 VDF1 VDF2 SET-UP VOLTAGE VALUE Ta=25 OC UNITS V V V V V V V 3. VD1 4.VD2 2.500 1.275 1.245 1.210 1.060 1.500 0.950 674 1. PFM DC/DC PARAMETER Output Voltage Operating Voltage Operating Start-Up Voltage Operating Hold Voltage Supply Current 1 Supply Current 2 Lx Switch ON Resistance Lx Leak Current Lx Control Voltage EXT H ON Resistance EXT L ON Resistance Duty Ratio 1 Duty Ratio 2 Max Oscillator Frequency Stand-by Current EN H Voltage EN L Voltage EN H Current EN L Current Efficiency (note 1) SYMBOL VOUT VIN VST VHLD IDD1 IDD2 RSWON ILXL VLXLMT When the oscillator frequency is more than double Ext. components connected, IOUT=1mA Ext. components connected, IOUT=1mA Output Voltage x 0.95 applied to VOUT Output Voltage + 0.5V applied to VOUT Output Voltage x 0.95 applied to VOUT,VLX=0.4V No ext. components, VOUT=VLX=10V Output Voltage x 0.95 applied to VOUT, Output Voltage applied to LX, Ext. components connected Ta=25 OC CONDITIONS MIN TYP MAX UNITS V V V V A A A V % % kHz A V V A A % CIRCUIT 1 1 1 2 2 2 3 2 2 2 2 1 2 2 4 4 4 4 1 2.438 2.500 2.563 0.7 0.7 0.8 35.0 2.5 9.1 140 140 75 62 100 0.2 70 6.0 0.9 56.9 5.0 13.7 1.0 1.1 210 210 80 115 1.0 0.2 0.25 - 0.25 - REXTH REXTL DTY1 DTY2 Output Voltage x 0.95 applied to VOUT, VEXT=VOUT - 0.4V Output Voltage x 0.95 applied to VOUT, VEXT=0.4V Output Voltage x 0.95 applied to VOUT, EXT waveform measurement Ext. components connected, IOUT=1mA, LX ON time measurement 70 85 0.7 - MAXFOSC Output Voltage x 0.95 applied to VOUT, EXT waveform measurement ISTB VENH VENL IENH IENL EFFI Output Voltage x 0.95 applied to VOUT, VEN=0V Output Voltage x 0.95 applied to VOUT, EXT oscillation judgement Output Voltage x 0.95 applied to VOUT, EXT stopped judgement Output Voltage x 0.95 applied to VOUT, VEN=VOUT Output Voltage x 0.95 applied to VOUT, VEN=0V Ext. components connected Conditions : Unless indicated, connect EN to VOUT, VIN=Output Voltage x 0.6, IOUT=10mA Note : 1. EFFI={ [ (output voltage) x (output current) ] / [ (input voltage) x (input current) ] } x 100 10 675 2. MWVD (Positive Logic) PARAMETER MW OUT 1 Detect Voltage MW OUT 2 Detect Voltage MW OUT 3 Detect Voltage MW OUT 4 Detect Voltage MW OUT 1 Hysteresis Width MW OUT 2 Hysteresis Width MW OUT 3 Hysteresis Width MW OUT 4 Hysteresis Width Supply Current Operating Voltage MW OUT 1 Output Current MW OUT 2 Output Current MW OUT 3 Output Current MW OUT 4 Output Current MW OUT 1 Delay Time MW OUT 2 Delay Time MW OUT 3 Delay Time MW OUT 4 Delay Time Ripple Rejection Resistance SYMBOL VDFMW1 VDFMW2 VDFMW3 VDFMW4 VHYSMW1 (Release Voltage=VDFMW1 + VHYSMW1 ) VHYSMW2 (Release Voltage=VDFMW2 + VHYSMW2) VHYSMW3 (Release Voltage=VDFMW3 + VHYSMW3) VHYSMW4 (Release Voltage=VDFMW4 x (1 + VHYSMW4 / 100) ) ISSMW MWVDIN IOUTMW1 IOUTMW2 IOUTMW3 IOUTMW4 TDLYMW1 TDLYMW2 TDLYMW3 TDLYMW4 RRIP Nch VDS=0.5V, MWVDIN =0.9V Nch VDS=0.5V, MWVDIN =0.9V Nch VDS=0.5V, MWVDIN =0.9V Nch VDS=0.5V, MWVDIN =0.9V Release Voltage Release Voltage Release Voltage Release Voltage RIP=1V, MWVD IN =0V Output Inversion, RIP open Output Inversion, RIP open Output Inversion, RIP open Output Inversion, RIP open MWVD IN =2.0V CONDITIONS MIN TYP MAX UNITS V V V V mV mV mV % A V mA mA mA mA msec msec msec msec k 1.250 1.275 1.301 1.220 1.245 1.270 1.186 1.210 1.234 1.039 1.060 1.081 4 4 4 2 0.9 0.18 0.18 0.18 0.18 250 10 10 10 5.0 1.8 1.8 1.8 1.8 500 8 20.0 6.0 0.4 0.4 0.4 0.4 1000 Ta=25 OC CIRCUIT 5 5 5 5 5 5 5 5 6 7 7 7 7 8 8 8 8 9 Special Parameter : VDFMW1 V DFMW2 V DFMW3 10 676 3. VD 1 PARAMETER Detect Voltage VD1 Hysteresis Width VD1 Supply Current Operating Voltage Output Current VDET1 VDET1 L H Delay Time VDF1=1.5V Ta=25 OC CONDITIONS MIN TYP MAX UNITS V % A V mA msec CIRCUIT 5 5 6 7 8 SYMBOL VDF1 VHYS1 ISS1 VIN1 IOUT1 TLH1 1.470 1.500 1.530 (Release Voltage=VDF1 x (1 + V HYS1 / 100) ) V IN1=2.0V 2 0.7 N-ch VDS=0.5V, VIN1=0.9V CD=3.3 F, V IN1=VDF1 x 0.9 VDF1 x 1.1 0.22 500 1.5 2.2 1000 8 3.0 6.0 2000 VDET1 H L Delay Time THL1 CD=3.3 F, V IN1=VDF1 x 1.1 VDF1 x 0.9 20 50 100 msec 8 4. VD 2 PARAMETER Detect Voltage VD2 Hysteresis Width VD2 Supply Current Operating Voltage Output Current V DET2 Delay Time V DET2 VDF2=0.95V Ta=25 OC CONDITIONS MIN TYP MAX UNITS V % A V mA msec CIRCUIT 5 5 6 7 8 SYMBOL VDF2 VHYS2 ISS2 VIN2 IOUT2 TDLY2 0.931 0.950 0.969 (Release Voltage=VDF2 x (1 + VHYS2 / 100) ) VIN2 =2.0V 2 0.7 N-ch VDS=0.5V, V IN2=0.9V Release Voltage Output Inversion 0.18 1.5 1.8 8 3.0 6.0 0.2 10 677 10 678 10 679 10 680 |
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