
NCP5008, NCP5009
TYPICAL OPERATING CHARACTERISTICS
Condition: Typical Application: L = 22 m H, Cin = 10 m F, Cout = 2.2 m F, R1 = 30 k W
90
85
V bat = 4.2 V
100
95
V bat = 6.0 V
80
V bat = 3.6 V
90
5.0 V
4.2 V
75
70
65
60
V bat = 3.0 V
85
80
75
70
3.0 V
3.6 V
0
5
10
15
20
25
30
35
0
10
20
30
40
50
60
70
I LED (mA)
Figure 15. Efficiency vs Load Current @ 2 LEDS
(V load = 2*Vf ? 7.1 V)
I LED (mA)
Figure 16. Efficiency vs Load Current @ 4 LEDS
(V load = 2 strings of 2 LEDs in series = 7.1 V)
Operating Description
Output
t CLKmin
V bat
ON
90%
50%
10%
tf
tr
OFF
Input
0.30* V bat
0.70* V bat
V bat
Figure 17. Digital Timing Definitions
Input Schmitt Triggers
All the Logic Input pins have built?in Schmitt trigger
circuits to prevent the NCP5008/NCP5009 against
uncontrolled operation. The typical dynamic characteristics
of the related pins are depicted in Figure 18.
The output signal is guaranteed to go High when the
input voltage is above 0.70*V bat , and will go Low when the
input voltage is below 0.30*V bat .
Local Mode
When the system operate in a Local Mode (Pin 6,
Figure 18. Typical Schmitt Trigger Characteristic
the current drawn pin 1. The clock signal is irrelevant and
the output current is derived by equation I out = I ref * k, the
internal constant k being equal to 746.
ESD Protection
The NCP5008/NCP5009 includes silicon devices to
protect the pins against the ESD spikes voltages. To cope
with the different ESD voltages developed in the
applications, the built?in structures have been designed to
handle $ 2.0 kV in Human Body Model (HBM) and
$ 200 V in Machine Model (MM) and on each pin.
/LOCAL=Low), the output current depends solely upon
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