ChipFind - документация

Электронный компонент:

Скачать:  PDF   ZIP
NO. EA-064-0006
62705608#3:0#6WHS0XS#'&2'&
&219(57(5
5454315#6(5,(6
$33/,&$7,21#0$18$/
SOT-23-5 PWM Step-up DC/DC CONVERTER
5454315#6(5,(6
1
OUTLINE
7KH#545431;;5&2;;5'#6HULHV#DUH#3:0#VWHS0XS#'&2'&#&RQYHUWHU#FRQWUROOHUV/#ZLWK#KLJK#DFFXUDF\/#ORZ#VXSSO\
FXUUHQW#E\#&026#SURFHVV1
(DFK#RI#WKH#545431;;5;#6HULHV#FRQVLVWV#RI#DQ#RVFLOODWRU/#D#3:0#FLUFXLW/#D#UHIHUHQFH#YROWDJH#XQLW/#DQ#HUURU#DPSOL0
ILHU/#SKDVH#FRPSHQVDWLRQ#FLUFXLW/#UHVLVWRUV#IRU#YROWDJH#GHWHFWLRQ/#D#FKLS#HQDEOH#FLUFXLW/#D#FRQWUROOHU#DJDLQVW#GUDVWLF#ORDG
WUDQVLHQW#DQG#DQ#RXWSXW#YROWDJH#GHWHFWRU1#$#ORZ#ULSSOH/#KLJK#HIILFLHQF\#VWHS0XS#'&2'&#FRQYHUWHU#FDQ#EH#FRPSRVHG#RI
WKLV#,&#ZLWK#RQO\#IRXU#H[WHUQDO#FRPSRQHQWV/#RU#DQ#LQGXFWRU/#D#GLRGH/#D#WUDQVLVWRU#DQG#D#FDSDFLWRU1
7KH#545431;;5;#6HULHV#FDQ#GHWHFW#GUDVWLF#FKDQJH#RI#RXWSXW#YROWDJH#ZLWK#D#FLUFXLW#FRQWUROOHU/#WKH#ORDG#WUDQVLHQW#UH0
VSRQVH#LV#LPSURYHG1
(DFK#RI#WKH#545431;;5;#6HULHV#KDV#D#GULYHU#SLQ/#RU#(;7#SLQ#IRU#H[WHUQDO#WUDQVLVWRU1#%\#FRQQHFWLQJ#D#SRZHU#WUDQ0
VLVWRU#ZLWK#ORZ#210UHVLVWDQFH#WR#(;7#SLQ/#D#ODUJH#FXUUHQW#IORZV#WKURXJK#DQ#LQGXFWRU/#WKXV/#ODUJH#RXWSXW#FXUUHQW#FDQ#EH
VXSSOLHG1
7KH#EXLOW0LQ#FKLS#HQDEOH#FLUFXLW#FDQ#PDNH#WKH#VWDQGE\#PRGH#ZLWK#XOWUD#ORZ#TXLHVFHQW#FXUUHQW1
6LQFH#WKH#SDFNDJH#IRU#WKHVH#,&V#LV#VPDOO#62705608/#KLJK#GHQVLW\#PRXQWLQJ#RI#WKH#,&V#RQ#ERDUG#LV#SRVVLEOH1
FEATURES
([WHUQDO#&RPSRQHQWV 111111111111111111111111111111111111111111111111111111111 2QO\#DQ#LQGXFWRU/#D#GLRGH/#D#FDSDFLWRU/#DQG#D#WUDQVLVWRU
6WDQGE\#&XUUHQW 111111111111111111111111111111111111111111111111111111111111111111 7<31#3--$
/RZ#7HPSHUDWXUH0'ULIW#&RHIILFLHQW#RI#2XWSXW#9ROWDJH111111 7<31#"433SSP2
&
2XWSXW#9ROWDJH111111111111111111111111111111111111111111111111111111111111111111111 6WHSZLVH#6HWWLQJ#ZLWK#D#VWHS#RI#3149#LQ#WKH#UDQJH#RI#5159#WR
9139
7ZR#FKRLFHV#RI#%DVLF#2VFLOODWRU#)UHTXHQF\111111111111111111111111 433N+]#+;;5&,/#4;3N+]#+;;5',
6PDOO#3DFNDJH1111111111111111111111111111111111111111111111111111111111111111111111 62705608#+0LQL0PROG,
/RZ#5LSSOH/#/RZ#1RLVH
2VFLOODWRU#6WDUW0XS#9ROWDJH11111111111111111111111111111111111111111111111111 0$;1#31;9
APPLICATIONS
3RZHU#VRXUFH#IRU#EDWWHU\0SRZHUHG#HTXLSPHQW1
3RZHU#VRXUFH#IRU#SRUWDEOH#FRPPXQLFDWLRQ#DSSOLDQFHV/#FDPHUDV/#9&5V
3RZHU#VRXUFH#IRU#DSSOLDQFHV#ZKLFK#UHTXLUH#KLJKHU#YROWDJH#WKDQ#EDWWHU\#YROWDJH1
R1210N2
2
BLOCK DIAGRAM
4
2
V
OUT
L
X
CE
GND
V
LX
Iimiter
Buffer
OSC
PWM/Controller
Phase Comp.
Vref Circuit
Chip Enable
-
+
-
+
-
+
EXT
5
5
1
SELECTION GUIDE
,Q#WKH#545431#6HULHV/#WKH#RXWSXW#YROWDJH/#WKH#RVFLOODWRU#IUHTXHQF\/#WKH#RSWLRQDO#IXQFWLRQ/#DQG#WKH#WDSLQJ#W\SH#IRU#WKH
,&V#FDQ#EH#VHOHFWHG#DW#WKH#XVHUV#UHTXHVW1
7KH#VHOHFWLRQ#FDQ#EH#PDGH#E\#GHVLJQDWLQJ#WKH#SDUW#QXPEHU#DV#VKRZQ#EHORZ>
545431;;;;0;;
D E F G
Code
Contents
D
6HWWLQJ#2XWSXW#9ROWDJH+9
287
,=
6WHSZLVH#VHWWLQJ#ZLWK#D#VWHS#RI#3149#LQ#WKH#UDQJH#RI#5159#WR#9139
E
'HVLJQDWLRQ#RI#'ULYHU
5=#([WHUQDO#7U1#'ULYHU
F
'HVLJQDWLRQ#RI#2VFLOODWRU#)UHTXHQF\
&=#433N+]
'=#4;3N+]
G
'HVLJQDWLRQ#RI#7DSLQJ#7\SH>
([1=#75/#7/#+UHIHU#WR#7DSLQJ#6SHFLILFDWLRQ,
75#LV#SUHVFULEHG#DV#D#VWDQGDUG1
R1210N2
3
PIN CONFIGURATION
SOT-23-5
1
2
3
4
(mark side)
5
EXT
GND
NC
CE
V
OUT
PIN DESCRIPTION
Pin No.
Symbol
Description
4
&(
&KLS#(QDEOH#3LQ
5
9
287
3LQ#IRU#2XWSXW#9ROWDJH
6
1&
1R#&RQQHFWLRQ
7
*1'
*URXQG#3LQ
8
(;7
([WHUQDO#7UDQVLVWRU#'ULYH#3LQ
ABSOLUTE MAXIMUM RATINGS
Symbol
Item
Rating
Unit
9
287
9
287
#3LQ#2XWSXW#9ROWDJH
<
9
9
(;7
(;7#3LQ#2XWSXW#9ROWDJH
0316
9
287
.316
9
9
&(
&(#3LQ#,QSXW#9ROWDJH
<
9
,
(;7
(;7#3LQ#,QGXFWRU#'ULYH#2XWSXW#&XU0
UHQW
73
P$
3'
3RZHU#'LVVLSDWLRQ
583
P:
7RSW
2SHUDWLQJ#7HPSHUDWXUH#5DQJH
073
.;8
&
7VWJ
6WRUDJH#7HPSHUDWXUH#5DQJH
088
.458
&
R1210N2
4
ELECTRICAL CHARACTERISTICS
R1210NXX2
+7RSW 58
&,
Symbol
Item
Conditions
MIN.
TYP.
MAX.
Unit
9
287
2XWSXW#9ROWDJH
9
,1
9
6(7
319/#,
287
4P$
31<:8
41358
9
9
,1
0D[LPXP#,QSXW#9ROWDJH
;
9
9
287
2
7
6WHS0XS#2XWSXW#9ROWDJH
7HPSHUDWXUH#&RHIILFLHQW
073
&
#7RSW#
#;8
&
433
SSP2
&
9
67$57
6WDUW0XS#9ROWDJH
9
,1
39
59
31;
9
43
48
$
+[[5&,
,
''5
6XSSO\#&XUUHQW#5
9
287
9
&(
9
6(7
.3189
48
55
$
+[[5',
,VWDQGE\
6XSSO\#&XUUHQW#6+6WDQGE\,
9
287
9189#9
&(
39
318
$
4;
68
$
+[[5&,
9
287
9
6(7
31<9#(;7#DW#QR#ORDG
5159#
#9VHW#
#5179
56
78
$
+[[5',
53
73
$
+[[5&,
9
287
9
6(7
31<9#(;7#DW#QR#ORDG
5189#
#9VHW#
#6139
58
83
$
+[[5',
58
83
$
+[[5&,
9
287
9
6(7
31<9#(;7#DW#QR#ORDG
6149#
#9VHW#
#61<9
63
93
$
+[[5',
63
93
$
+[[5&,
9
287
9
6(7
31<9#(;7#DW#QR#ORDG
79#
#9VHW#
#7179
68
:3
$
+[[5',
68
:3
$
+[[5&,
,
''4
6XSSO\#&XUUHQW4
9
287
9
6(7
31<9#(;7#DW#QR#ORDG
7189#
#9VHW#
#71<9
73
;3
$
+[[5',
R1210N2
5
Symbol
Item
Conditions
MIN.
TYP.
MAX.
Unit
78
<3
$
+[[5&,
9
287
9
6(7
31<9#(;7#DW#QR#ORDG
89#
#9VHW#
#8179
83
433
$
+[[5',
83
433
$
+[[5&,
,
''4
6XSSO\#&XUUHQW4
9
287
9
6(7
31<9#(;7#DW#QR#ORDG
8189#
#9VHW#
#9139
88
443
$
+[[5',
43
48
$
+[[5&,
,
''5
6XSSO\#&XUUHQW5
9
287
9
&(
9
6(7
.3189
48
55
$
+[[5',
5159#
#9
6(7
#
#5189/
9
(;7
9
287
03179
0413
P$
5199#
#9
6(7
#
#6139/
9
(;7
9
287
03179
0513
6149#
#9
6(7
#
#6189/
9
(;7
9
287
03179
0518
6199#
#9
6(7
#
#7139/
9
(;7
9
287
03179
0613
7149#
#9
6(7
#
#7189/
9
(;7
9
287
03179
0618
7199#
#9
6(7
#
#8139/
9
(;7
9
287
03179
0713
8149#
#9
6(7
#
#8189/
9
(;7
9
287
03179
0718
,
(;7+
(;7#+#2XWSXW#&XUUHQW
8199#
#9
6(7
#
#9139/
9
(;7
9
287
03179
0813
;3
433
453
N+]
+[[5&,
IRVF
0D[LPXP#2VFLOODWRU#)UH0
TXHQF\
9
287
9
&(
9
6(7
31<9
477
4;3
549
N+]
+[[5',
R1210N2
6
Symbol
Item
Conditions
MIN.
TYP.
MAX.
Unit
318
N+]2
&
+[[5&,
IRVF2
7
2VFLOODWRU#)UHTXHQF\#7HP0
SHUDWXUH#&RHIILFLHQW
073
&
#7RSW#
#;8
&
319
N+]2
&
+[[5',
0D[GW\
2VFLOODWRU#0D[LPXP#'XW\
&\FOH
9
287
9
&(
9
6(7
31<9/
+9
(;7
=#+#VLGH,
:3
;8
<:
(
5159#
#9
6(7
#
#5189/#9
(;7
3179
413
P$
5199#
#9
6(7
#
#6139/#9
(;7
3179
513
6149#
#9
6(7
#
#6189/#9
(;7
3179
518
6199#
#9
6(7
#
#7139/#9
(;7
3179
613
7149#
#9
6(7
#
#7189/#9
(;7
3179
618
7199#
#9
6(7
#
#8139/#9
(;7
3179
713
8149#
#9
6(7
#
#8189/#9
(;7
3179
718
,
(;7/
(;7#/#2XWSXW#&XUUHQW
8199#
#9
6(7
#
#9139/#9
(;7
3179
813
9
&(+
#&(#+#,QSXW#9ROWDJH
9
287
9
6(7
31<9
31<
9
9
&(/
#&(#/#,QSXW#9ROWDJH
9
287
9
6(7
31<9
316
9
,
&(+
#&(#+#,QSXW#&XUUHQW
9
287
9
&(
9189
0314
3
314
$
,
&(/
#&(#/#,QSXW#&XUUHQW
9
287
9189/#9
&(
39
0314
3
314
$
*Note: V
SET
means setting Output Voltage.
R1210N2
7
TEST CIRCUITS
L
Tr
V
IN
Cb
C
L
Rb
SD
EXT
GND
V
OUT
CE
V
EXT
V
OUT
GND
CE
C
OSCILLOSCOPE
Test Circuit 1
Test Circuit 2
EXT
GND
CE
V
OUT
A
EXT
GND
CE
V
OUT
A
Test Circuit 3
Test Circuit 4
OSCILLOSCOPE
EXT
GND
CE
V
OUT
C
OSCILLOSCOPE
EXT
GND
CE
V
OUT
Test Circuit 5
Test Circuit 6
,QGXFWRU#+/,
=#5:
+#+6XPLGD#(OHFWULF#&R1/#/WG1#&'437,
'LRGH#+6',
=#5%7<4'#+5RKP/#6FKRWWN\#7\SH,
&DSDFLWRU#+&/,
=#7:
)
5#+7DQWDOXP#7\SH,
7UDQVLVWRU#+7U,
=#56'495;*
%DVH#5HVLVWRU#+5E, =#633
%DVH#&DSDFLWRU#+&E, =#3134
)+&HUDPLF#7\SH,
R1210N2
8
TYPICAL CHARACTERISTICS
1)
Output Voltage vs. Output Current
R1210N302C
R1210N302D
L:27
H
V
IN
:1.5V
V
IN
:2.0V
V
IN
:2.5V
V
IN
:0.9V
Output Current I
OUT
(mA)
0
200
400
600
800
3.2
3.1
3.0
2.9
2.8
Output Voltage V
OUT
(V)
L:27
H
V
IN
:1.5V
V
IN
:2.0V
V
IN
:2.5V
V
IN
:0.9V
Output Current I
OUT
(mA)
0
200
400
600
800
3.2
3.1
3.0
2.9
2.8
Output Voltage V
OUT
(V)
R1210N502C
R1210N502D
L:27
H
V
IN
:3.0V
V
IN
:2.0V
V
IN
:4.0V
V
IN
:1.5V
Output Current I
OUT
(mA)
0
200
400
600
800
5.4
5.2
5.0
4.8
4.6
4.4
Output Voltage V
OUT
(V)
L:27
H
V
IN
:3.0V
V
IN
:2.0V
V
IN
:4.0V
V
IN
:1.5V
Output Current I
OUT
(mA)
0
200
400
600
800
5.4
5.2
5.0
4.8
4.6
4.4
Output Voltage V
OUT
(V)
2)
Efficiency vs. Output Current
R1210N302C
R1210N302D
L:27
H
V
IN
:2.5V
V
IN
:1.5V
V
IN
:2.0V
V
IN
:0.9V
Output Current I
OUT
(mA)
0
200
400
600
800
100
80
60
40
20
0
Efficiency
(%)
L:27
H
V
IN
:2.5V
V
IN
:1.5V
V
IN
:2.0V
V
IN
:0.9V
Output Current I
OUT
(mA)
0
200
400
600
800
100
80
60
40
20
0
Efficiency
(%)
R1210N2
9
R1210N502C
R1210N502D
L:27
H
V
IN
:4.0V
V
IN
:2.0V
V
IN
:1.5V
V
IN
:3.0V
Output Current I
OUT
(mA)
0
200
400
600
800
100
80
60
40
20
0
Efficiency
(%)
L:27
H
V
IN
:4.0V
V
IN
:2.0V
V
IN
:1.5V
V
IN
:3.0V
Output Current I
OUT
(mA)
0
200
400
600
800
100
80
60
40
20
0
Efficiency
(%)
3)
Ripple Voltage vs. Output Current
R1210N302C
R1210N302D
L:27
H
V
IN
:2.5V
V
IN
:0.9V
V
IN
:1.5V
Output Current I
OUT
(mA)
0
200
400
600
800
280
240
200
160
120
80
40
0
Ripple Voltage Vripple (mV)
L:27
H
V
IN
:2.5V
V
IN
:0.9V
V
IN
:1.5V
Output Current I
OUT
(mA)
0
200
400
600
800
280
240
200
160
120
80
40
0
Ripple Voltage Vripple (mV)
R1210N502C
R1210N502D
L:27
H
V
IN
:4.0V
V
IN
:1.5V
V
IN
:3.0V
Output Current I
OUT
(mA)
0
200
400
600
800
280
240
200
160
120
80
40
0
Ripple Voltage Vripple (mV)
L:27
H
V
IN
:4.0V
V
IN
:0.9V
V
IN
:1.5V
V
IN
:3.0V
Output Current I
OUT
(mA)
0
200
400
600
800
280
240
200
160
120
80
40
0
Ripple Voltage Vripple (mV)
R1210N2
10
4)
Start-up Voltage/ Hold-on Voltage vs. Output Current (Topt=25
C)
R1210N302C
R1210N302D
L:27
H
V
HOLD
V
START
Output Current I
OUT
(mA)
0
20
40
60
100
80
1.6
1.2
0.8
0.4
0.0
Start-up/Hold-on Voltage
V
START
/V
HOLD
(V)
Start-up/Hold-on Voltage
V
START
/V
HOLD
(V)
L:27
H
V
HOLD
V
START
Output Current I
OUT
(mA)
0
20
40
60
100
80
1.6
1.2
0.8
0.4
0.0
R1210N502C
R1210N502D
Start-up/Hold-on Voltage
V
START
/V
HOLD
(V)
L:27
H
V
HOLD
V
START
Output Current I
OUT
(mA)
0
20
40
60
100
80
1.6
1.2
0.8
0.4
0.0
Start-up/Hold-on Voltage
V
START
/V
HOLD
(V)
L:27
H
V
HOLD
V
START
Output Current I
OUT
(mA)
0
20
40
60
100
80
1.6
1.2
0.8
0.4
0.0
5)
Output Voltage vs. Temperature
R1210N302C
R1210N302D
Output Voltage V
OUT
(V)
L:27(
H)
I
OUT
:30(mA)
I
OUT
:0(mA)
I
OUT
:100(mA)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
3.10
3.05
3.00
2.95
2.90
Output Voltage V
OUT
(V)
L:27(
H)
I
OUT
:30(mA)
I
OUT
:0(mA)
I
OUT
:100(mA)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
3.10
3.05
3.00
2.95
2.90
R1210N2
11
R1210N502C
R1210N502D
Output Voltage V
OUT
(V)
L:27(
H)
I
OUT
:30(mA)
I
OUT
:0(mA)
I
OUT
:100(mA)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
5.15
5.10
5.05
5.00
4.95
4.90
4.85
Output Voltage V
out (V)
L:27(
H)
I
out:30(mA)
I
out:0(mA)
I
out:100(mA)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
5.15
5.10
5.05
5.00
4.95
4.90
4.85
6)
Supply Current 1 vs. Temperature
R1210N302C
R1210N302D
Supply Current I
ss
1(
A)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
40
30
20
10
0
Supply Current I
ss
1(
A)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
40
30
20
10
0
R1210N502C
R1210N502D
Supply Current I
ss
1(
A)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
80
60
40
20
0
Supply Current I
ss
1(
A)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
80
60
40
20
0
R1210N2
12
7)
Supply Current 2 vs. Temperature
R1210N302C
R1210N302D
Supply Current2 I
ss
2(
A)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
25
60
15
10
0
5
Supply Current2 I
ss
2 (
A)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
25
60
15
10
0
5
R1210N502C
R1210N502D
Supply Current2 I
ss
2 (
A)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
25
60
15
10
0
5
Supply Current2 I
ss
2 (
A)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
25
60
15
10
0
5
8)
Supply Current 3 vs. Temperature
R1210N302C
R1210N302D
Temperature Topt(
C)
Supply Current 3 Istandby (
A)
0
0.0
-0.2
0.4
0.2
0.8
1.0
0.6
25
100
75
50
-50
-25
Supply Current3 Istandby(
A)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
1.0
0.8
0.6
0.4
0.2
-0.2
0.0
R1210N2
13
R1210N502C
R1210N502D
Supply Current3 Istandby(
A)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
1.0
0.8
0.6
0.4
0.2
-0.2
0.0
Supply Current3 Istandby(
A)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
1.0
0.8
0.6
0.4
0.2
-0.2
0.0
9)
Oscillator Frequency vs. Temperature
R1210N302C
R1210N302D
Oscillator Frequency fosc(kHz)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
300
250
200
150
100
0
50
Oscillator Frequency fosc(kHz)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
300
250
200
150
100
0
50
R1210N502C
R1210N502D
Oscillator Frequency fosc(kHz)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
300
250
200
150
100
0
50
Oscillator Frequency fosc(kHz)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
300
250
200
150
100
0
50
R1210N2
14
10) Maximum Duty Cycle vs. Temperature
R1210N302C
R1210N302D
Maximum Duty Cycle Duty(%)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
100
90
80
70
60
40
50
Maximum Duty Cycle Duty(%)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
100
90
80
70
60
40
50
R1210N502C
R1210N502D
Maximum Duty Cycle Duty(%)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
100
90
80
70
60
40
50
Maximum Duty Cycle Duty(%)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
100
90
80
70
60
40
50
11) EXT "H" Output Current vs. Temperature
R1210N302C
R1210N302D
EXT"H" Output Current
I_EXT"H"(mA)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
20
15
10
0
5
EXT"H" Output Current
I_EXT"H"(mA)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
20
15
10
0
5
R1210N2
15
R1210N502C
R1210N502D
EXT"H" Output Current
I_EXT"H"(mA)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
20
15
10
0
5
EXT"H" Output Current
I_EXT"H"(mA)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
20
15
10
0
5
12) EXT "L" Output Current vs. Temperature
R1210N302C
R1210N302D
EXT"L" Output Current
I_EXT"L"(mA)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
20
15
10
0
5
EXT"L" Output Current
I_EXT"L"(mA)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
20
15
10
0
5
R1210N502C
R1210N502D
EXT"L" Output Current
I_EXT"L"(mA)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
20
15
10
0
5
EXT"L" Output Current
I_EXT"L"(mA)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
20
15
10
0
5
R1210N2
16
13) CE "H" Input Voltage vs. Temperature
R1210N602C
R1210N602D
CE"H" Input Voltage V_CE"H"(V)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
0.9
0.8
0.7
0.6
0.5
0.3
0.4
CE"H" Input Voltage V_CE"H"(V)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
0.9
0.8
0.7
0.6
0.5
0.3
0.4
14) CE "L" Input Voltage vs. Temperature
R1210N602C
R1210N602D
CE"L" Input Voltage V_CE"L"(V)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
0.9
0.8
0.7
0.6
0.5
0.3
0.4
CE"L" Input Voltage V_CE"L"(V)
Temperature Topt(
C)
-50
-25
0
25
50
100
75
0.9
0.8
0.7
0.6
0.5
0.3
0.4
15) Output Waveform at Power-on (Topt: 25
C)
++545431835&,,#+9
,1
=#3>9@
613>9@,
,
287
=#4>P$@
,
287
=#433>P$@
1
[ ]
1Acqs
T
2
Ch1
1.00V
Ch2
Ch1
2.00V M50.0ms
640mV
V
IN
V
OUT
2V/div
1
[ ]
1Acqs
T
2
Ch1
1.00V
Ch2
Ch1
2.00V M50.0ms
640mV
V
IN
V
OUT
2V/div
R1210N2
17
++545431835',,#+9
,1
=#3>9@
613>9@,
,
287
=#4>P$@
,
287
=#433>P$@
1
[ ]
1Acqs
T
2
Ch1
1.00V
Ch2
Ch1
2.00V M50.0ms
640mV
V
IN
V
OUT
2V/div
1
[ ]
1Acqs
T
2
Ch1
1.00V
Ch2
Ch1
2.00V M50.0ms
640mV
V
IN
V
OUT
2V/div
++545431635&,,#+9
,1
=#3>9@
418>9@,
,
287
=#4>P$@
,
287
=#433>P$@
1
[ ]
1Acqs
T
2
Ch1
1.00V
Ch2
Ch1
2.00V M50.0ms
640mV
V
IN
V
OUT
1V/div
1
[ ]
1Acqs
T
2
Ch1
1.00V
Ch2
Ch1
2.00V M50.0ms
640mV
V
IN
V
OUT
1V/div
++545431635',,#+9
,1
=#3>9@
418>9@,
,
287
=#4>P$@
,
287
=#433>P$@
1
[ ]
1Acqs
T
1V/div
2
Ch1
1.00V
Ch2
Ch1
1.00V M50.0ms
640mV
V
IN
V
OUT
1
[ ]
1Acqs
T
2
Ch1
1.00V
Ch2
Ch1
1.00V M50.0ms
640mV
V
IN
V
OUT
1V/div
R1210N2
18
16) Load Transient Response (Topt: 25
C)
++545431835&,,#+9
,1
=#613>9@/#,
287
=#4>P$@
533>P$@,
2
[ ]
8Acqs
T
1
Ch1
2.00V
Ch2
Ch1
Ch1
200mV M50.0ms
960mV
I
OUT
V
OUT
200mV
2
[ ]
2Acqs
T
1
Ch1
2.00V
Ch2
Ch1
Ch1
200mV M50.0ms
960mV
I
OUT
V
OUT
200mV
++545431835',,#+9
,1
=#613>9@/#,
287
=#4>P$@
533>P$@,
2
[ ]
13Acqs
T
1
Ch1
2.00V
Ch2
Ch1
Ch1
200mV M50.0ms
960mV
I
OUT
V
OUT
200mV
2
[ ]
4Acqs
T
1
Ch1
2.00V
Ch2
Ch1
Ch1
200mV M50.0ms
960mV
I
OUT
V
OUT
200mV
++545431635&,,#+9
,1
=#418>9@/#,
287
=#4>P$@
433>P$@,
2
[ ]
2Acqs
T
Ch1
1.00V
Ch2
Ch1
Ch1
100mV M50.0ms
960mV
I
OUT
V
OUT
100mV
2
[ ]
3Acqs
T
Ch1
1.00V
Ch2
Ch1
Ch1
100mV M50.0ms
960mV
I
OUT
V
OUT
100mV
R1210N2
19
++545431635',,#+9
,1
=#418>9@/#,
287
=#4>P$@
433>P$@,
2
[ ]
4Acqs
T
Ch1
1.00V
Ch2
Ch1
Ch1
100mV M50.0ms
960mV
I
OUT
V
OUT
100mV
2
[ ]
2Acqs
T
Ch1
1.00V
Ch2
Ch1
Ch1
100mV M50.0ms
960mV
I
OUT
V
OUT
100mV