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| SMA2404M Datasheet, PDF (1/1 Pages) Sanken electric – Suitable for inverter element for HID ballast unit | |||
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500V breakdown voltage Full bridge driver IC SMA2404M (Negative drive system)
Features
500V breakdown voltage negative power supply drive system
Encapsulate MOSFET (4pieces) and a control MIC
Sanken original ZIP package
Suitable for inverter element for HID ballast unit
Absolute maximum ratings
No.
Item
1
Power Source Voltage
2
Input Voltage
3
Operating Voltage
4
Output Voltage
5
Output Current
6
Total Power Dissipation
7
Operation Temperature
8
Storage Temperature
9
Junction Temperature
Symbol
Unit
VM
V
VIN
V
Vcc
V
VOUT
V
IOUT(DC)
A
PD
W
Topr
Tstg
Tj
Rating
480
500
15
15
500
7
4
20
-40 +150
-40 +150
150
Conditions
between Power GND and âHV
Tj=-40 -20
between Power GND and âHV
Tj=-20 +150
Tj=-40 +150
Tj=-40 +150
Ta=25
Ta=25
Ta=25
Tc=25
35W HID Lamps Driver
Package
between roots
between roots
Circuit block diagram
planer state
lead tip miscutting
Electrical characteristics (Tj=25 )
No.
Item
Power MOSFET Output
1
Breakdown Voltage
Power MOSFET Output
2
Leakage Current
3
Power MOSFET Output
On-State Voltage
4 Quiescent Circuit Current
5 Operating Circuit Current
6 Input Threshold Voltage
Low side MOSFET Gate
7
Drive Voltage
8 Delay time
9
Power MOSFET
On-State Resistance
Power MOSFET
10
Input Capacitance
11 Diode Reverse Recovery Time
Symbol Unit
Min.
BVOUT V
500
Value
Typ.
Max.
Conditions
IOUT=100 A
IOUT(off)
A
100 VOUT=500V
0.28
0.40
0.52 IOUT=0.4A, VIN(or VGL)=10V
VOUT(on) V
1.4
2.0
2.6 IOUT=2.0A, VIN(or VGL)=10V
Icc1 mA
3.0 Vcc=10V, VM=VIN=0V
Icc2 mA
Icc3 mA
VIH
V 0.8 Vcc
VIL
V
4.0 Vcc=10V, VM=400V, VIN=0V
4.0
Vcc=10V, VM=400V
VIN1(orVIN2)=10V
Vcc=7 15V
0.2 Vcc
VGL
V 0.7 Vcc
td(on)
s
1.5
td(off)
s
2.0
td
s
RDS(on)
0.7
1.0
Ciss
pF
860
trr
ns
300
8.0 Vcc=7 15V
Vcc=VIN=10V, VM=85V
IO=0.41A
2.5
td=td(off)-td(on)
1.3 ID=0.4A, VGS=10V
VDS=10V, f=1MHz
VGS=0V
ISD= 100mA
Typical connection diagram
Timing Chart
Recommended input signal dead time
No.
Item
1
dV/dt
2 Recommended dead time
Value
Symbol Unit
Min. Typ. Max.
Conditions
dV/dt V/ s
2 Ta=25 ,Vcc=10V,VM=400V
td
4.5
Ta= 40 150
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