Absolute Maximum Ratings
Storage Temperature ................................................................................................................................................-65ûC to 150ûC
VCC ................................................................................................................................................................................-0.3V to 30V
Supply Voltage Range (load dump = 26Vw/series 51½ resistor) VCC Peak Transient Voltage.....................................40V
Input Voltage Range (at any input) ...........................................................................................................................-0.3V to 10V
Maximum Junction Temperature ..........................................................................................................................................150ûC
ESD Capability (Human Body Model) ....................................................................................................................................2kV
Lead Temperature Soldering: Wave Solder (through hole styles only)..........................................10 sec. max, 260¡C peak
8V < VCC < 16V, -40ûC < TA < 125¡C, (unless otherwise specified)
Electrical Characteristics:
PARAMETER
■ VCC Supply
TEST CONDITIONS
MIN
TYP
MAX
UNIT
Operating Current Supply
Quiescent Current
5
10
275
21
mA
µA
V
VCC = 12V
170
19.5
325
Overvoltage Shutdown
Overvoltage Hysteresis
18
150
500
mV
■ Control (CTL)
Control Input Current
Sleep Mode Threshold
Sleep Mode Hysteresis
CTL = 0V to 5V
-2
8%
50
0.1
10%
100
2
µA
VREG
mV
12%
150
■ Current Sense
Differential Voltage Sense
IADJ =51.2% VREG and RCS1= 51½
IADJ = 0V to 5V
60.5
-5
79.5
2
mV
µA
I
ADJ Input Current
0.3
■ Linear Regulator VREG
Output Voltage
VCC = 13.2V
4.85
5.00
5.15
V
■ Inhibit
Inhibit Threshold
Inhibit Hysteresis
40%
150
50%
325
60%
500
VREG
mV
■ External Drive (OUTPUT)
Output Frequency
ROSC = 105k½, COSC = 390pF
17
20
23
kHz
Voltage to Duty Cycle
Conversion
VCC = 13V, CTL = 30% VREG
VCC = 13V, CTL = 70% VREG
26.3
69.5
38.5
81.5
%
%
Output Rise Time
VCC = 13V, RGATE = 6½, CGATE = 5nF
VCC = 13V, RGATE = 6½, CGATE = 5nF
VCC = 13V, RGATE = 6½, CGATE = 5nF
VCC = 13V, RGATE = 6½, CGATE = 5nF
IOUT = 1mA
.25
.30
1
1
µs
µs
Output Fall Time
Output Sink Current
Output Source Current
Output High Voltage
Output Low Voltage
400
400
mA
mA
V
VCC - 1.7
IOUT = -1mA
1.3
V
2