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NSIC2030BT3G

P1-P3P4-P6P7-P9
NSIC2030BT3G
http://onsemi.com
4
TYPICAL PERFORMANCE CURVES
(Minimum FR4 @ 100 mm
2
, 1 oz. Copper Trace, Still Air)
0.071 mA/°C
Figure 1. General Performance Curve for CCR Figure 2. Steady State Current (I
reg(SS)
) vs.
AnodeCathode Voltage (Vak)
Figure 3. Pulse Current (I
reg(P)
) vs.
AnodeCathode Voltage (Vak)
Figure 4. Steady State Current vs. Pulse
Current Testing
Vak, ANODECATHODE VOLTAGE (V) I
reg(P)
, PULSE CURRENT (mA)
Figure 5. Current Regulation vs. Time
TIME (s)
60504020100
31.5
32.0
33.0
I
reg
, REGULATION CURRENT (mA)
30 80
29.5
30.5
Figure 6. Power Dissipation vs. Ambient
Temperature @ T
J
= 1755C: Small Footprint
T
A
, AMBIENT TEMPERATURE (°C)
P
D
, POWER DISSIPATION (mW)
31.0
32.5
Vak, ANODECATHODE VOLTAGE (V)
806040 14020020
20
0
10
30
50
I
reg
, CURRENT REGULATION (mA)
10
20
40
100
Vak, ANODECATHODE VOLTAGE (V)
96543
5
15
25
30
I
reg(SS)
, STEADY STATE CURRENT (mA)
710
DC Test Steady State, Still Air
8
10
210
40
45
0
11 12 13 14 15
10987654
20
24
26
393533
25
26
27
I
reg(P)
, PULSE CURRENT (mA)
I
reg(SS)
, STEADY STATE CURRENT (mA)
22
28
30
3
28
30
31
32
27 31
34
35
32
36
21
T
A
= 25°C
NonRepetitive Pulse Test
11 12 13 14 15 29 363428 3230
Vak @ 7.5 V
T
A
= 25°C
Vak @ 7.5 V
T
A
= 25°C
34
37 38
30.0
T
A
= 25°C
T
A
= 55°C
T
A
= 25°C
T
A
= 85°C
0.123 mA/°C
T
A
= 150°C
80602002040
500
1000
2000
2500
40
500 mm
2
/2 oz
300 mm
2
/1 oz
100 mm
2
/2 oz
1500
3000
0
100 mm
2
/1 oz
500 mm
2
/1 oz
300 mm
2
/2 oz
120100
120
T
J(max)
, maximum die temperature
limit 175°C (100 mm
2
, 1 oz Cu)
0.080 mA/°C
70
FR4 Board
29
33
20
35
T
A
= 125°C
NSIC2030BT3G
http://onsemi.com
5
TYPICAL PERFORMANCE CURVES
(Minimum FR4 @ 100 mm
2
, 1 oz. Copper Trace, Still Air)
Figure 7. Power Dissipation vs. Ambient
Temperature @ T
J
= 1755C: Large Footprint
T
A
, AMBIENT TEMPERATURE (°C)
80602002040
500
1000
2000
2500
POWER DISSIPATION (mW)
40
DENKA K1, 900 mm
2
/2 oz
FR4, 700 mm
2
/2 oz
1500
3000
0
FR4, 1000 mm
2
/3 oz
3500
4000
4500
120100
DENKA K1, 400 mm
2
/2 oz
FR4, 700 mm
2
/1 oz
NSIC2030BT3G
http://onsemi.com
6
APPLICATIONS INFORMATION
The CCR is a self biased transistor designed to regulate the
current through itself and any devices in series with it. The
device has a slight negative temperature coefficient, as
shown in Figure 2 – Tri Temp. (i.e. if the temperature
increases the current will decrease). This negative
temperature coefficient will protect the LEDS by reducing
the current as temperature rises.
The CCR turns on immediately and is typically at 20% of
regulation with only 0.5 V across it.
The device is capable of handling voltage for short
durations of up to 120 V so long as the die temperature does
not exceed 175°C. The determination will depend on the
thermal pad it is mounted on, the ambient temperature, the
pulse duration, pulse shape and repetition.
AC Applications
The CCR is a DC device; however, it can be used with full
wave rectified AC as shown in application notes
AND8433/D and AND8492/D and design notes
DN05013/D and DN06065/D. Figure 8 shows the basic
circuit configuration.
Figure 8. Basic AC Application
Single LED String
The CCR can be placed in series with LEDs as a High Side
or a Low Side Driver. The number of the LEDs can vary
from one to an unlimited number. The designer needs to
calculate the maximum voltage across the CCR by taking the
maximum input voltage less the voltage across the LED
string (Figures 9 and 10).
Figure 9.
Figure 10.
P1-P3P4-P6P7-P9

NSIC2030BT3G

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Buy NSIC2030BT3G
Manufacturer:
ON Semiconductor
Description:
LED Lighting Drivers
Lifecycle:
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