DPA422-426
Conditions
SOURCE = 0 V; TJ = -40 to 125 °C
See Figure 33
Parameter
Symbol
Min
Typ
Max
Units
(Unless Otherwise Specified)
Supply Voltage Characteristics
DRAIN Supply Voltage
Shunt Regulator
See Note D
16
V
V
VC(SHUNT)
IC = (IC(SKIP) + IB)/2; TJ = 25 °C
5.6
5.85
50
6.0
Voltage
Shunt Regulator
Temperature Drift
IC = (IC(SKIP) + IB)/2
DPA422
PPM/°C
1.6
1.9
2.6
3.7
4.8
2.0
2.3
3.0
4.3
5.4
2.4
2.7
3.4
4.8
6
Output
MOSFET Enabled
VL = 0 V;
DPA423
DPA424
DPA425
DPA426
ICD1
CONTROL Supply/
Discharge Current
mA
fOSC = 400 kHz
Output MOSFET Disabled
VL = 0 V; fOSC = 400 kHz
ICD2
0.4
0.73
1.2
NOTES:
A. For specifications with negative values, a negative temperature coefficient corresponds to an increase in magnitude with increasing
temperature, and a positive temperature coefficient corresponds to a decrease in magnitude with increasing temperature.
B. For externally adjusted current limit values, please refer to Figure 35 (Current Limit vs. External Current Limit Resistance) in the
Typical Performance Characteristics section.
C. Breakdown voltage may be checked against minimum BVDSS specification by ramping the DRAIN pin voltage up to but not
exceeding minimum BVDSS
.
D. It is possible to start up and operate DPA-Switch at DRAIN voltages well below 16 V. However, the CONTROL pin charging
current is reduced, which affects start-up time, auto-restart frequency, and auto-restart duty cycle. Refer to Figure 45, the
characteristic graph on CONTROL pin charge current (IC) vs. DRAIN voltage for low voltage operation characteristics.
25
www.powerint.com
Rev. T 12/12