LTM4602
典型性能特性
EF网络效率与负载电流
与5V
IN
( FCB = 0 )
100
90
80
效率(%)
70
60
50
40
30
效率(%)
0.8V
OUT
1.2V
OUT
1.5V
OUT
1.8V
OUT
2.5V
OUT
3.3V
OUT
*
*对于5V到3.3V的转换,
SEE频率调整
应用程序中的信息
0
2
4
6
负载电流(A )
8
4602 G01
(参见图21的所有曲线)
EF网络效率与负载电流
用20V
IN
( FCB = 0 )
100
90
80
70
60
50
40
30
1.2V
OUT
1.5V
OUT
1.8V
OUT
2.5V
OUT
3.3V
OUT
0
2
4
负载电流(A )
4602 G02
4602 G03
EF网络效率与负载电流
用12V
IN
( FCB = 0 )
100
90
80
70
60
50
40
30
0
2
0.8V
OUT
1.2V
OUT
1.5V
OUT
1.8V
OUT
2.5V
OUT
3.3V
OUT
3.3V
OUT
(950kHz)*
* 950kHz INSTEAD OF 1.3MHz
增加3.3V效率2 %
4
6
负载电流(A )
8
效率(%)
6
8
轻载英法fi效率VS
负载电流和12V
IN
( FCB > 0.7V , <5V )
100
90
80
效率(%)
70
60
50
40
30
1.2VOUT
1.5VOUT
1.8VOUT
2.5VOUT
3.3VOUT
0
0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9
负载电流(A )
1
V
OUT
50mV/DIV
I
OUT
2A/DIV
1.2V瞬态响应
1.5V瞬态响应
V
OUT
50mV/DIV
I
OUT
2A/DIV
20μs/DIV
1.2V AT 3A /μs的负载阶跃
C
OUT
= 1
×
22μF , 6.3V陶瓷
330μF , 4V三洋POSCAP
4602 G05
20μs/DIV
1.5V AT 3A /μs的负载阶跃
C
OUT
= 1
×
22μF , 6.3V陶瓷
330μF , 4V三洋POSCAP
4602 G06
4602 G04
1.8V瞬态响应
V
OUT
50mV/DIV
V
OUT
50mV/DIV
2.5V瞬态响应
V
OUT
50mV/DIV
3.3V瞬态响应
I
OUT
2A/DIV
20μs/DIV
1.8V AT 3A /μs的负载阶跃
C
OUT
= 1
×
22μF , 6.3V陶瓷
330μF , 4V三洋POSCAP
4602 G07
I
OUT
2A/DIV
20μs/DIV
2.5V AT 3A /μs的负载阶跃
C
OUT
= 1
×
22μF , 6.3V陶瓷
330μF , 4V三洋POSCAP
4602 G08
I
OUT
2A/DIV
20μs/DIV
3.3V AT 3A /μs的负载阶跃
C
OUT
= 1
×
22μF , 6.3V陶瓷
330μF , 4V三洋POSCAP
4602 G09
4602fa
4
