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MIP2M20MTSCF Dataheets PDF



Part Number MIP2M20MTSCF
Manufacturers Panasonic
Logo Panasonic
Description Silicon MOSFET
Datasheet MIP2M20MTSCF DatasheetMIP2M20MTSCF Datasheet (PDF)

DReovcisNioon. . T1 D4-EA-01892 Product Standards MIP2M20MTSCF Type Silicon MOSFET type Integrated Circuit Application For Switching Power Supply Control Structure CMOS type Circuit Block Diagram Figure 8 Out Line DIP7-A1-B Marking A.ABSOLUTE MAXIMUM RATINGS (Ta=25℃±3℃) NO. Item Symbol 1 DRAIN Voltage 2 VCC Voltage 3 VDD Voltage 4 FB Voltage 5 FB Current 6 LS Voltage 7 SO Voltage 8 Output Peak Current 9 Recommended Operating Temperature 10 Channel Temperature 11 Storage Temperatur.

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DReovcisNioon. . T1 D4-EA-01892 Product Standards MIP2M20MTSCF Type Silicon MOSFET type Integrated Circuit Application For Switching Power Supply Control Structure CMOS type Circuit Block Diagram Figure 8 Out Line DIP7-A1-B Marking A.ABSOLUTE MAXIMUM RATINGS (Ta=25℃±3℃) NO. Item Symbol 1 DRAIN Voltage 2 VCC Voltage 3 VDD Voltage 4 FB Voltage 5 FB Current 6 LS Voltage 7 SO Voltage 8 Output Peak Current 9 Recommended Operating Temperature 10 Channel Temperature 11 Storage Temperature VD VCC VDD VFB IFB VLS VSO IDP Tj Tch Tstg Ratings -0.3 ~ 700 -0.3 ~ 45 -0.3 ~ 9 -0.3 ~ 6.4 -500 -0.3 ~ 10 -0.3 ~ 9 0.76(※1) -30 ~ +125 150 -55 ~ +150 MIP2M2 Unit Note V V VFB is guaranteed at VDD=6 V. VSO is guaranteed at V VSO=VDD. V ※ 1: IDP is guaranteed at μA the pulse width narrower than V ton(BLK) + td(OCL) V A ℃ ℃ ℃ B.ELECTRICAL CHARACTERISTICS No. Item Measure condition (TC=25℃±3℃) Symbol Measure Condition (Figure 1) Typ Min Max Unit 【CONTROL FUNCTIONS】 *Design guaranteed item 1 Output Frequency fosc ※ Figure 7 V4=15 V, V3=2 V, I2=-20 μA, V5=5 V 67 60.3 73.7 kHz 2 Jitter Frequency Deviation d_fosc ※ Figure 7 V4=15 V, V3=2 V, I2=-20 μA, V5=5 V 5.0 2.4 7.6 kHz *3 Jitter Frequency Modulation Rate fM ※ Figure 7 V4=15 V, V3=2 V, I2=-20 μA, V5=5 V 360 - - Hz 4 Maximum Duty Cycle 5 VDD Voltage 6 VCC Start Voltage MAXDC V4=15 V, V3=2 V, I2=-20 μA, V5=5 V 54 50 58 % VDD V4=15 V, V3=6 V, I2=-20 μA, V5=5 V, V6=1 V 5.9 5.4 6.4 V VCC(ON) V3=6 V, I2=-20 μA, V5=5 V, V6=1 V 12 11 13 V Established : 2014-01-16 Revised : ####-##-## Page 1 of 9 DReovcisNioon. . T1 D4-EA-01892 Product Standards MIP2M20MTSCF 7 VCC Stop Voltage VCC(OFF) V3=6 V, I2=-20 μA, V5=5 V, V6=1 V 8.2 7.45 8.95 V 8 VCC start/stop Hysteresis VCC(HYS) VCC(ON) - VCC(OFF) 3.8 3.1 4.5 V 9 Feedback Threshold Current ON→OFF IFB1 V4=15 V, V3=6 V, V5=5 V, V6=1 V -57 -81 -34 μA 10 Feedback Current Hysteresis OFF→ON IFB(HYS) V4=15 V, V3=6 V, V5=5 V, V6=1 V 1.5 - - μA 11 FB Pin Voltage V4=15 V, V3=6 V, I2= IFB1, VFB1 V5=5 V, V6=1 V 1.9 1.6 2.2 V 12 Circuit Current before start V4=6.5 V, V3=6 V, I2=-20 μA, ICC(SB) V5=5 V, V6=1 V 0.25 0.20 0.30 mA 13 Circuit Current V4=15 V, V3=6 V, I2=-20 μA, ICC V5=5 V, V6=1 V 0.36 0.23 0.49 mA 14 VDD Charging Current Ich1 V1=0 V, V5=40 V -2.2 -3.3 -1.1 mA Ich2 V1=4 V, V5=40 V -1.3 -2.1 -0.6 mA 15 LS start voltage V4=VCC(OFF)→VCC(ON), VLSH V3=6 V, I2=-20 μA, V5=5 V 540 486 594 mV 16 LS stop voltage V4=15 V, V3=6 V, I2=-20 μA, VLSL V5=5 V 395 355 435 mV 17 LS detect Hysteresis VLSH - VLSL VLSHYS 145 - - mV 18 LS start/stop mode filter time V4=15 V, V3=6 V, I2=-20 μA, V5=5 V TLSstop V6=VLSH→VLSL 5.85 4.2 7.5 ms 19 LS detect SO signal mode filter time TLSSO V4=15 V, V3=6 V, I2=-20 μA, V5=5 V 3.15 1.85 4.45 ms 20 SO output voltage V4=15 V, I2=-20 μA, V5=5 V VSO V6=VLSH→VLSL 4.2 3.2 5.2 V No. Item Symbol Measure Condition (Figure 1) Typ Min Max Unit 21 SO output current 22 SO Disable Threshold 23 SO Disable Threshold difference 24 SO pull down current 25 Soft start time ISO VSOTH V4=15 V, V3=1V, I2=-20 μA, V5=5 V V6=0 V -0.8 -1.2 -0.4 mA V4=15 V, I2=-20 μA, V5=5 V, V6=0 V 5.2 4.6 5.8 V D_VSO VSOTH-VSO 1.0 0.7 1.3 V V4=15 V, V3=1 V, I2=-20 μA, V5=5 V ISO_down V6=0 V 0.7 0.3 1.1 μA Tsoft V4=VCC(OFF)→VCC(ON) I2=-20 μA, V5=5 V, V6=1 V 8.5 5 12 ms 【CIRCUIT PROTECTIONS】 26 Self Protection Current Limit ILIMIT 27 ILIMIT modified coefficient R_slope *28 Drain Current at Light Load ID(OFF) 29 FB current at heavy load IFBOLP 30 FB Over Load Protection detect voltage VFBOLP ※Figure 5 Duty=30 % V4=15 V, V3=2 V, V2=2.6 V, V5=adjusted ※Figure 5 Duty=10 % V4=15 V,V3=2 V, V2=2.6 V, V5=adjusted Ton=4.5 μsec, V4=15 V, V3=2 V, I2=IFB1+IFB(HYS)+2 μA, V5=adjusted V5=ILIMIT condition V4=15 V, V3=2 V, V2=3 V, V6=1 V V5=ILIMIT condition V4=15 V, V3=2 V, V6=1 V 0.35 10 100 -10 3.85 0.315 - 0.385 - A mA/ μs 40 160 mA -13 -7 μA 3.5 4.2 V Established : 2014-01-16 Revised : ####-##-## Page 2 of 9 DReovcisNioon. . T1 D4-EA-01892 Product Standards MIP2M20MTSCF 31 FB Over Load Protection Hysteresis HYSVFBOLP 0.65 - -V 32 FB discharge current at timer V5=ILIMIT condition, V4=VCC(OFF) intermittent IFBOLPP V3=2 V, V2=25 V, V6=1 V 1.0 0.6 1.4 mA 33 FB current at MAXDC detect V4=15 V, V3=6 V, V2=3 V, IFBMAXDC V5=5 V, V6=1 V - - 0.2 μA 34 Timer intermittent function TIMER ※Figure 3 V4=VCC(ON)⇔VCC(OFF), V5=ILIMIT condition, V3=6 V, I2=-20 μA, V6=1 V 4 35 Timer intermittent function disabled at MAXDC TIMER2 *36 Leading Edge Blanking Delay ※Figure 4 V4=VCC(ON)⇔VCC(OFF), V5=ILIMIT condition, V3=6 V, I2=-20 μA, V6=1 V 1 ton(BLK) 290 230 350 ns *37 Current Limit Delay td(OCL) 150 100 200 ns 38 VCC Over Voltage Protection 39 VDD Over Voltage Protection VCC(OV) VDD(OV) V3=6 V, I2=-20 μA, V5=5 V, V6=1 V V4=15 V, I1=IDD(OV), V3=0 V, I2=-20 μA, V5=5 V, V6=6 V 29 26 32 V 7.0 6.40 7.50 V 40 VDD current a.


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