MIP2M40MS Datasheet PDF - Panasonic


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MIP2M40MS
Panasonic

Part Number MIP2M40MS
Description Silicon MOS FET type integrated circuit
Page 8 Pages

MIP2M40MS datasheet pdf
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MIP2M40MS
Silicon MOS FET type integrated circuit
Features
AC input detecting function
By connecting SO terminal, it is able to select functions as below:
1) Boot up and stop operation according to AC input or output (short-
circuit SO teminal to VDD terminal)
2) Signal output form SO terminal when AC input is low and transmit to
the secondary side (connect an external element to SO terminal)
Built-in jitter function
Power consumption 30 mW or less at a no load is achieved
Protection function is built into.
(over load protection, over voltage protection, over heat protection)
Applications
Thin TVs and othes
Absolute Maximum Ratings Ta = 25°C±3°C
Parameter
Symbol Rating
Unit
DRAIN voltage
VD - 0.3 to +700 V
VCC voltage
VCC - 0.3 to +45 V
VDD voltage
VDD - 0.3 to +8
V
FB voltage
VFB - 0.3 to +6.4 V
FB current
IFB -500 mA
LS voltage
VLS - 0.3 to +10 V
SO voltage
VSO - 0.3 to +7
V
Output peak current *
IDP 2.2
A
Channel temperature
Tch 150
°C
Storage temperature
Tstg -55 to +150 °C
Note) *: The guarantee within the following pulse width.
Leading edge blanking delay + Current limit delay ton(BLK) + td(OCL)
Package
Code
DIP7-A1
Pin Name
1. VDD
2. FB
3. SO
4. VCC
5. DRAIN
6.
7. SOURCE
8. LS
Marking Symbol: MIP2M4
Publication date: November 2010
Ver. AEF
1



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MIP2M40MS
Block Diagram
2 Ver. AEF



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MIP2M40MS
Electrical Characteristics TC = 25°C±3°C
Parameter
Symbol
Conditions
Min
Control functions
Output frequency *1
Jitter frequency deviation *1
Jitter frequency modulation rate *1
fosc V4 = 15 V, V3 = 2 V, I2 = -20 mA, V5 = 5 V 60.3
f V4 = 15 V, V3 = 2 V, I2 = -20 mA, V5 = 5 V 2.4
fM V4 = 15 V, V3 = 2 V, I2 = -20 mA, V5 = 5 V
Maximum duty cycle
MAXDC V4 = 15 V, V3 = 2 V, I2 = -20 mA, V5 = 5 V 50
VDD voltage
VDD
V4 = 15 V, V3 = 6 V, I2 = -20 mA,
V5 = 5 V, V6 = 1 V
5.4
VCC start voltage
VCC(ON) V3 = 6 V, I2 = -20 mA,V5 = 5 V, V6 = 1 V 11
VCC stop voltage
VCC(OFF) V3 = 6 V, I2 = -20 mA,V5 = 5 V, V6 = 1 V 7.45
VCC start / stop hysteresis
VCC(HYS) V3 = 6 V, I2 = -20 mA,V5 = 5 V, V6 = 1 V 3.1
FB threshold voltage
IFB1
ON OFF
V4 = 15 V, V3 = 6 V, V5 = 5 V, V6 = 1 V
-140
FB hysteresis current
IFB(HYS)
OFF ON
V4 = 15 V, V3 = 6 V, V5 = 5 V, V6 = 1 V
FB pin voltage
VFB1
V4 = 15 V, V3 = 6 V, I2 = IFB1,
V5 = 5 V, V6 = 1 V
1.6
Circuit current before start
ICC(SB)
V4 = 6.5 V, V3 = 6 V, I2 = -20 mA,
V5 = 5 V, V6 = 1 V
0.20
Circuit current
ICC
V4 = 15 V, V3 = 6 V, I2 = -20 mA,
V5 = 5 V, V6 = 1 V
0.255
VDD charging current
Ich1 V1 = 0 V, V5 = 40 V
Ich2 V1 = 4 V, V5 = 40 V
-5.25
-3.8
LS start voltage
VLSH
V4 = VCC(OFF) VCC(ON),
V3 = 6 V, I2 = -20 mA, V5 = 5 V
486
LS stop voltage
VLSL V4 = 15 V, V3 = 6 V, I2 = -20 mA, V5 = 5 V 355
LS detect hysteresis
VLS(HYS) VLSH - VLSL
LS start / stop mode lter time
TLSstop
V4 = 15 V, V3 = 6 V, I2 = -20 mA,
V5 = 5 V, V6 = VLSH VLSL
4.2
LS detect SO signal mode lter time
TLSSO V4 = 15 V, V3 = 6 V, I2 = -20 mA, V5 = 5 V 1.85
SO output voltage
VSO
V4 = 15 V, I2 = -20 mA, V5 = 5 V,
V6 = VLSH VLSL
3.2
SO output current
ISO
V4 = 15 V, V3 = 1 V, I2 = -20 mA,
V5 = 5 V, V6 = 0 V
-1.2
SO disable threshold
VSOTH V4 = 15 V, I2 = -20 mA,V5 = 5 V, V6 = 0 V 4.6
SO disable threshold difference
D_VSO VSOTH - VSO
0.7
SO pull down current
ISO_down
V4 = 15 V, V3 = 1 V, I2 = -20 mA,
V5 = 5 V, V6 = 0 V
0.3
Soft start time
Tsoft
V4 = VCC(OFF) VCC(ON),
I2 = -20 mA, V5 = 5 V, V6 = 1 V
5
Typ
67
5.0
360
54
5.9
12
8.2
3.8
-100
5
1.9
0.25
0.40
-3.5
-2.45
540
395
145
5.85
3.15
4.2
- 0.80
5.2
1.0
0.7
8.5
Max
73.7
7.6
58
6.4
13
8.95
4.5
-60
2.2
0.30
0.545
-1.75
-1.1
594
435
7.5
4.45
5.2
- 0.4
5.8
1.3
1.1
12
Unit
kHz
kHz
Hz
%
V
V
V
V
mA
mA
V
mA
mA
mA
mA
mV
mV
mV
ms
ms
V
mA
V
V
mA
ms
Ver. AEF
3



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MIP2M40MS
Electrical Characteristics (continued) TC = 25°C±3°C
Parameter
Symbol
Conditions
Min Typ Max Unit
Circuit protections
Self protection current limit *2
ILIMIT
V4 = 15 V, V3 = 2 V, V2 = 2.6 V,
V5 = adjusted, Duty = 30%
0.315 0.35 0.385 A
ILIMIT modied coefcient *2
R_slope
V4 = 15 V, V3 = 2 V, V2 = 2.6 V,
V5 = adjusted, Duty = 10%
10 mA/ms
Drain current at light load
ID(OFF)
Ton = 4.5 ms, V4 = 15 V, V3 = 2 V,
I2 = IFB1+2 mA, V5 = adjusted
40 100 160 mA
FB current at heavy load
IFBOLP
V5 = ILIMIT conditon
V4 = 15 V, V3 = 2 V, V2 = 3 V, V6 = 1 V
-10 -13
-7 mA
FB over load protection detect voltage
VFBOLP
V5 = ILIMIT conditon
V4 = 15 V, V3 = 2 V, V6 = 1 V
3.5 3.85 4.2 V
FB over load protection hysteresis
HYSVFBOLP
0.65 V
FB discharge current at timer intermittent
IFBOLPP
V5 = ILIMIT conditon, V4 = VCC(OFF),
V3 = 2 V, V2 = 25 V, V6 = 1 V
0.6
1.0
1.4 mA
FB current at MAXDC detect
IFBMAXDC
V4 = 15 V, V3 = 6 V, V2 = 3 V,V5 = 5 V,
V6 = 1 V
0.2 mA
Timer intermittent function *3
TIMER
V4 = VCC(ON) VCC(OFF),
V5 = ILIMIT condition, V3 = 6 V,
I2 = -20 mA, V6 = 1 V
4
Timer intermittent function disabled at
MAXDC *4
TIMER2
V4 = VCC(ON) VCC(OFF),
V5 = 5 V, V3 = 6 V, I2 = -20 mA, V6 = 1 V
1
Leading edge blanking delay
ton(BLK)
230 290 350 ns
Current limit delay
td(OCL)
100 150 200 ns
VCC over voltage protection
VCC(OV) V3 = 6 V, I2 = -20 mA, V5 = 5 V, V6 = 1 V 26 29 32 V
VDD over voltage protection
VDD(OV)
V4 = 15 V, I1 = IDD(OV), V3 = 0 V,
I2 = -20 mA, V5 = 5 V, V6 = 6 V
6.2 7.0 7.8 V
VDD current at VDD over voltage
protection
IDD(OV)
V4 = 15 V, V3 = 0 V, I2 = -20 mA,
V5 = 5 V, V6 = 6 V
2.4 3.5 4.6 mA
VDD(OV) difference
D_VDDOV VDD(ON) - VDD
0.4 0.9 1.5 V
Thermal shutdown temperature
TOTP
130 140 150 °C
Latch reset VDD threshold
VDDreset
1.8 2.7 3.5 V
Output
ON-state resistance
RDS(ON)
V4 = 15 V, V3 = 2 V, I5 = 100 mA,
I2 = -20 mA, V6 = 1 V
16 21 W
OFF-state leakage current
IDSS
V4 = 35 V, I2 = -20 mA, V3 = 6 V,
V5 = 650 V, V6 = 1 V
10 20 mA
Breakdown voltage
Rise time *5
Fall time *5
VDSS
tr
tf
V4 = 35 V, I2 = -20 mA, V3 = 6 V,
I5 = 100 mA, V6 = 1 V
V4 = 15 V, V3 = 1 V, I2 = -20 mA, V5 = 5 V
V4 = 15 V, V3 = 1 V, I2 = -20 mA, V5 = 5 V
700
70
35
V
ns
ns
Supply voltage characteristics
Drain supply voltage
VD(MIN) V1, V2, V3, V4, V6 OPEN
50
V
4 Ver. AEF




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