MIP0040MS – Silicon MOSFET type Integrated Circuit

Part Number : MIP0040MS

Function : Silicon MOSFET type Integrated Circuit

Manufactures : Panasonic

Images :

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MIP0040MS image

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pinout

Description :

MIP0040MS Type Application Structure Equivalent Circuit Out Line Silicon MOSFET type Integrated Circuit For Switching Power Supply Control CMOS type Figure 8 DIP7-A1 Marking A. ABSOLUTE MAXIMUM RATINGS (Ta= 25°C±3°C) No. Item Symbol 1 VIN Voltage 2 VCC Voltage 3 VDD Voltage 4 OUT Voltage 5 IS Voltage 6 TR Voltage 7 TR Current 8 Channel Temperature 9 Storage Temperature VIN VCC VDD VOUT VIS VTR ITR Tch Tstg Ratings –0.3 to 500 –0.3 to 45 –0.3 to 9 –0.3 to 30 –0.3 to 5 10 –5 150 –55 to +150 MIP004 Unit V V V V V V mA °C °C Publication date: March 2013 Ver. AEF Page 1 of 7 MIP0040MS B.ELECTRICAL CHARACTERISTICS (continued) No. Item Symbol Measure condition (Ta= 25°C±3°C) Measure Condition (Figure 1) Typ. Min. Max. Unit [CONTROL FUNCTIONS] *Design guaranteed item 1 VCC Start Voltage VCC(ON) 2 VCC Stop Voltage VCC(OFF) 3 VCC Start/Stop Hysteresis D_VCC VCC(ON) – VCC(OFF) 4 VDD Start Voltage VDD(ON) 5 VDD Stop Voltage VDD(OFF) 6 VDD Clamp Voltage VDD(CLP) IDD = 5 mA 7 VDD Control Voltage VDD(CNT) ON → OFF 8 VDD Control Hysteresis VDDCNTHYS OFF → ON 9 VDD Start/Stop Hysteresis D_VDD1 VDD(ON) – VDD(OFF) 10 Deference between VDD(ON) and VDD(ON) – VDD(CNT) VDD(CNT) D_VDD2 11 Deference between VDD(CNT) and VDD(CNT) – VDD(OFF) VDD(OFF) D_VDD3 12 Deference between VDD(ON) and VDD(CNT) D_VDD4 VDD(CLP) – VDD(CNT) 13 VCC Current at Start-up ICC(SB) VCC = VCC(ON) – 0.5 V, VDD = VDD(ON) + 0.2 V 14 VCC Current at Off-state VCC = 15 V ICC(OFF) VDD = VDD(CNT) + 0.2 V 15 VCC Current at Operating ICC(OP) VCC = 20 V, COUT = 1nF, VDD = VDD(CNT) – 0.3 V 16 VDD Current at Start-up IDD(SB) VCC = VDD(ON) + 0.5 V VDD = VDD(ON) – 0.2 V 17 VDD Current at Off-state VCC = 15 V IDD(OFF) VDD = VDD(CNT) + 0.2 V 18 VDD Current at Operating IDD(OP) VCC = 20 V, VDD = VDD(CNT) – 0.3 V 19 Output Frequency at Start-up fosc 20 Jitter IS Voltage Deviation D_VIS VDD = VDD(CNT) – 0.1 V *Figure 2 *21 Transformer Reset Voltage VTH(TR) 22 Transformer Reset Detection Delay Time Td(TR) 23 Mask Time after Turn-off at Heavy VDD = VDD(CNT) – 0.3 V Td(OFF)1 *Figure 3 20 18 22 V 13 12 14 V 7 6 8V 6.0 5.4 6.6 V 4.8 4.3 5.3 V 6.7 5.9 7.5 V 5.7 5.1 6.3 V 10 – – mV 1.2 0.9 1.5 V 0.3 0.05 0.6 0.9 0.6 1.2 V V 1.0 0.6 1.4 V 0.18 0.08 0.18 mA 0.17 0.07 0.27 mA 0.60 0.40 0.80 mA 0.63 0.52 0.77 mA 0.65 0.55 0.75 mA 0.58 0.46 0.70 mA 25 22 28 kHz 32 – – mV 65 5 125 mV 150 – – ns 5 – – μs Ver. AEF Page 2 of 7 MIP0040MS B.ELECTRICAL CHARACTERISTICS (continued) Measure condition (Ta= 25°C±3°C) No. Item Symbol Measure Condition (Figure 1) Typ. Min. Max. Unit 24 Mask Time after Turn-off at Light Load 25 VCC Charge Current Td(OFF)2 ICCH1 VDD = VDD(CNT) *Figure 3 VCC = 0 V, VDD = open, VIN = 50 V 26 VDD Charge Current ICCH2 IDCH1 VCC = 18 V, VDD = open, VIN = 50 V VCC = VCC(ON), VDD = 0 V, VIN = 50 V IDCH2 VCC = VCC(ON), […]

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MIP0040MS Datasheet


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