欢迎访问ic37.com |
会员登录 免费注册
发布采购

NRSA1R0M50V5X11TRF 参数 Datasheet PDF下载

NRSA1R0M50V5X11TRF图片预览
型号: NRSA1R0M50V5X11TRF
PDF下载: 下载PDF文件 查看货源
内容描述: 小型铝电解电容器 [Miniature Aluminum Electrolytic Capacitors]
分类和应用: 电容器铝电解电容器
文件页数/大小: 2 页 / 168 K
品牌: NIC [ NIC-COMPONENTS CORP. ]
 浏览型号NRSA1R0M50V5X11TRF的Datasheet PDF文件第2页  
Miniature Aluminum Electrolytic Capacitors
RADIAL LEADS, POLARIZED, STANDARD CASE SIZING
NRSA Series
(today’s standard)
NRSA
(reduced sizes)
NRSS
includes all homogeneous materials
*See Part Number System for Details
6.3 ~ 100 VDC
0.47 ~ 10,000
µF
-40 ~ +85°C
+
20% (M)
0.03CV or 4
µ
A , whichever is greater
0.01CV or 3
µ
A , whichever is greater
W.V. (Vdc)
6.3
10
16
25
35
50
63
100
S.V. (Vdc)
8
13
20
32
44
63
79
125
C <
1,000
µF
0.24
0.20
0.16
0.14
0.12
0.10
0.10
0.10
C = 2,200
µF
0.24
0.21
0.18
0.16
0.14
0.12
0.11
C = 3,300
µF
0.26
0.23
0.20
0.18
0.16
0.14
0.13
C = 4,700
µF
0.28
0.25
0.22
0.20
0.18
0.20
C = 6,800
µF
0.32
0.29
0.26
0.24
C = 10,000
µF
0.40
0.37
0.34
0.32
Z-25°C/Z+20°C
4
3
2
2
2
2
2
2
Z-40°C/Z+20°C
10
8
6
4
3
3
3
3
Capacitance Change
Within +
20% of initial measured value
Tan
δ
Less than 200% of specified maximum value
Leakage Current
Less than specified maximum value
Capacitance Change
Within +
20% of initial measured value
Tan
δ
Less than 200% of specified maximum value
Leakage Current
Less than specified maximum value
RoHS
Compliant
CHARACTERISTICS
Rated Voltage Range
Capacitance Range
Operating Temperature Range
Capacitance Tolerance
After 1 min.
Max. Leakage Current @ (20
o
C)
After 2 min.
Max. Tan
δ
@ 120Hz/20°C
Low Temperature Stability
Impedance Ratio @ 120Hz
Load Life Test at Rated W.V.
85°C 2,000 Hours
Shelf Life Test
85°C 1,000 Hours
No Load
Note: Capacitors shall conform to JIS-C-5141, unless otherwise specified here.
PERMISSIBLE RIPPLE CURRENT
(mA rms AT 120HZ AND 85
O
C)
�½�½�½ �½
µ
�½�½
�½�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½
�½�½
�½�½
�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½�½
MAXIMUM ESR
(Ω AT 120HZ AND 20
O
C)
�½�½
�½�½
�½�½
�½�½
�½�½
�½�½
�½�½
�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½
�½
�½�½
�½
�½
�½
�½
�½�½
�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½
�½
�½
�½�½�½
�½�½
�½�½
�½�½
�½�½
�½�½
�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½
�½
�½
�½
�½
�½
�½
�½
�½�½�½�½�½�½�½ �½�½�½�½�½�½�½ �½�½�½�½�½
�½�½�½
�½
�½
�½
�½
�½
�½
�½
�½
�½
�½
�½
�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½
�½
�½
�½
�½
�½
�½
�½
�½
�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½
�½�½�½
�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½
�½
�½
�½
�½
�½
�½�½
�½�½
�½�½
�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½
�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½
�½
�½
�½
�½
�½
�½�½
�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½
�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½
�½
�½
�½
�½
�½
�½�½
�½�½
�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½
�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½
�½
�½�½�½ �½
µ
�½�½
�½�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½
�½�½
�½�½
�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½�½
�½�½�½�½�½�½�½ �½�½�½�½�½�½�½ �½�½�½�½�½
�½�½
�½�½
�½�½
�½�½
�½�½
�½�½�½
�½�½�½
�½
�½
�½
�½
�½
�½�½�½
�½
�½
�½
�½
�½
�½�½�½�½
�½
�½
�½
�½
�½
�½�½�½�½
�½
�½
�½
�½
�½
�½�½�½�½
�½
�½
�½
�½
�½
�½�½�½�½
�½�½�½�½
�½
�½�½�½�½
�½
�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½
�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½
�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½
�½�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½
�½
�½
�½
�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½�½
�½�½�½�½�½�½
�½�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½�½
�½�½�½�½�½�½
�½�½�½�½�½�½
�½�½�½�½�½�½
�½�½�½�½�½�½
�½�½�½�½
�½
�½
�½�½�½�½�½�½
�½�½�½�½�½�½
�½�½�½�½�½�½
�½�½�½�½�½
�½
�½
�½�½�½�½�½�½
�½�½�½�½�½�½
�½�½�½�½�½�½
�½�½�½�½�½�½
�½�½
�½
�½
�½
�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½
�½
�½
�½�½�½
�½�½�½
�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½�½�½�½�½
�½
�½
�½
�½
�½
�½
�½
�½
Please review the notes on correct use, safety and precautions found on
pages T10
&
T11
of NIC’s
Electrolytic Capacitor catalog.
Also found at
www.niccomp.com/precautions
If in doubt or uncertainty, please review your specific application - process details with
NIC’s technical support personnel:
tpmg@niccomp.com
PRECAUTIONS
RIPPLE CURRENT FREQUENCY CORRECTION FACTOR
Frequency (Hz)
~ 47
µF
100 ~ 470
µF
1000
µ
F ~
2200 ~ 10000
µF
50
0.75
0.80
0.85
0.85
120
1.00
1.00
1.00
1.00
300
1.35
1.23
1.10
1.03
1K
1.57
1.34
1.13
1.05
10K
2.00
1.50
1.15
1.08
®
NIC COMPONENTS CORP.
www.niccomp.com
www.lowESR.com
www.RFpassives.com
www.SMTmagnetics.com
45