dimension applies to the termination width for A dimensional area only.
W
1
A
S
A
CAPACITANCE AND RATED VOLTAGE RANGE
(LETTER DENOTES CASE SIZE)
Capacitance
μF
Code
4.7
475
6.8
685
10
106
15
156
22
226
33
336
47
476
68
686
100
107
150
157
220
330
470
680
1000
1500
227
337
477
687
108
158
Rated Voltage DC (V
R
) to 85°C / 0.66 DC to 105ºC / 0.5 DC to 125ºC
1.8V (x)
2.5V (e)
4.0V (G)
6.3V (J)
B(350)
C(125)
A(1000,2000)
A(1500)
B(600)
A(900)
B(600)
B(600)
B(600)
B(600)
B(600)/C(500)
B(500)
B(500)/C(300)
C(300)
C(200)
C(200)
C(75,200)
C(150)
C(70,150)
C(150)/D(80,100)
C(65,150)
C(90,150)
D(50,70,100)
D(60,100)
C(80,125)
D(60,150)
E(80,100)
D(35,50,100)
D(55,100)/E(100)
E(80,100)
D(35,40,100)
D(55,100)/E(100)
V(75)
E(75,100)
E(60)
V(75)
V(50)
Available Ratings: ESR limits quoted in brackets (mOhms)
Engineering samples - please contact manufacturer
54
■
JUNE 2013
NBS COTS-Plus
Niobium Oxide Capacitor Weibull Grade
HOW TO ORDER
NBS E
Type
Case
Size
227
*
006
C
#
@
0
^
++
Surge Test
Option
00 = None
23 = 10 Cycles, +25ºC
24 = 10 Cycles,
-55ºC & +85ºC
45 = 10 cycles,
-55ºC & +85ºC
before Weibull
Capacitance Capacitance
Voltage
Standard or Packaging Inspection Level
Reliability Grade
Code
Tolerance
Code
Low ESR
S = Std.
Weibull:
B = Bulk
pF code:
M = ±20% 001 = 1.8Vdc
Range
Conformance B = 0.1%/1000 hrs.
R = 7" T&R
1st two digits
002 = 2.5Vdc L = Low ESR S = 13" T&R L = Group A
90% conf.
represent
D = DSCC DWG
004 = 4Vdc
C = 0.01%/1000 hrs.
W = Waffle
significant
006 = 6.3Vdc
90% conf.
figures 3rd
See page 6
digit represents
for additional
multiplier
(number of
packaging
zeros to follow)
options.
Qualification Termination Finish
Level
H = Solder Plated
0 = N/A
0 = Fused Solder
Plated
8 = Hot Solder
Dipped
9 = Gold Plated
7 = Matte Sn
(COTS-Plus only)
Not RoHS Compliant
LEAD-FREE COMPATI-
BLE
COMPONENT
For RoHS compliant products,
please select correct termination style.
TECHNICAL SPECIFICATIONS
Technical Data:
Capacitance Range:
Capacitance Tolerance:
Leakage Current DCL:
Rated Voltage (V
R
)
Category Voltage (V
C
)
Surge Voltage (V
S
)
Temperature Range:
All technical data relate to an ambient temperature of +25°C is not stated
10 μF to 1000 μF
±20%
0.02CV
1.8
2.5
4
6.3
0.9
1.3
2
3
2.3
3.3
5.2
8
1.2
1.7
2.6
4
-55°C to +125°C
JUNE 2013
+85°C:
+125°C:
+85°C:
+125°C:
■
55
NBS COTS-Plus
Niobium Oxide Capacitor Weibull Grade
RATINGS & PART NUMBER REFERENCE
AVX Part Number
Case
Size
Cap
(μF)
Rated
Voltage
(V)
DCL
(μA)
Max.
DF
%
Max.
ESR
Max. (mΩ)
@100kHz
100kHz Ripple Current Rating (A)
25ºC
85ºC
125ºC
100kHz Ripple Voltage Ratings (V)
25ºC
85ºC
105ºC
NBS B107M001 L #@0 ^ +
NBS C227M001 L #@0 ^ +
NBS A226M002 L
NBS B336M002 L
NBS B476M002 L
NBS C686M002 L
NBS C107M002 L
NBS C157M002 L
NBS C157M002 C
NBS C227M002 L
NBS C227M002 C
NBS D337M002 L
NBS D337M002 C
NBS D477M002 C
NBS D477M002 L
NBS E477M002 L
NBS E687M002 L
NBS V108M002 L
NBS A156M004 L
NBS B226M004 L
NBS B336M004 L
NBS B476M004 L
NBS C476M004 L
NBS C686M004 L
NBS C107M004 L
NBS C107M004 C
NBS C157M004 L
NBS C157M004 C
NBS D227M004 L
NBS D227M004 C
NBS D337M004 L
NBS E337M004 C
NBS D477M004 L
NBS E477M004 L
NBS E477M004 C
NBS V687M004 L
NBS A106M006 L
NBS A106M006 C
NBS B156M006 L
NBS B226M006 L
NBS B336M006 L
NBS C336M006 L
NBS C476M006 L
NBS C686M006 L
NBS C686M006 C
NBS C107M006 L
NBS D107M006 L
NBS D107M006 C
NBS D157M006 L
NBS D157M006 C
NBS D227M006 L
NBS D227M006 C
NBS E227M006 L
NBS E227M006 L
NBS E337M006 L
NBS E337M006 L
NBS V477M006 L
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
#@0 ^ +
B
C
A
B
B
C
C
C
C
C
C
D
D
D
D
E
E
V
A
B
B
B
C
C
C
C
C
C
D
D
D
E
D
E
E
V
A
A
B
B
B
C
C
C
C
C
D
D
D
D
D
D
E
E
E
E
V
100
220
22
33
47
68
100
150
150
220
220
330
330
470
470
470
680
1000
15
22
33
47
47
68
100
100
150
150
220
220
330
330
470
470
470
680
10
10
15
22
33
33
47
68
68
100
100
100
150
150
220
220
220
220
330
330
470
1.8
1.8
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
6.3
6.3
6.3
6.3
6.3
6.3
6.3
6.3
6.3
6.3
6.3
6.3
6.3
6.3
6.3
6.3
6.3
6.3
6.3
6.3
6.3
1.8 Volt @ 85°C (1.2 Volt @ 105°C, 0.9 Volt @ 125ºC)
3.6
6
350
0.540
8.0
8
125
1.028
2.5 Volt @ 85°C (1.7 Volt @ 105°C, 1.3 Volt @ 125ºC)
1.1
6
900
0.316
1.7
6
600
0.412
2.4
6
500
0.452
3.4
6
200
0.812
5.0
6
150
0.938
7.6
6
65
1.425
7.6
6
150
0.938
11.0
8
80
1.285
11.0
8
125
1.028
16.5
6
35
2.268
16.5
10
100
1.342
23.5
10
55
1.809
23.5
10
100
1.342
23.5
10
100
1.407
34.0
12
60
1.817
50.0
18
50
2.449
4 Volt @ 85°C (2.7 Volt @ 105°C, 2 Volt @ 125ºC)
1.2
6
1500
0.245
1.8
6
600
0.412
2.6
6
600
0.412
3.8
6
500
0.452
3.8
6
300
0.663
5.4
6
200
0.812
8.0
6
70
1.373
8.0
6
150
0.938
12.0
6
90
1.211
12.0
6
150
0.938
17.6
8
60
1.732
17.6
8
100
1.342
26.4
8
100
1.342
26.4
8
100
1.407
37.6
12
100
1.342
37.6
12
75
1.625
37.6
12
100
1.407
54.4
14
75
2.000
6.3 Volt @ 85°C (4 Volt @ 105°C, 3 Volt @ 125ºC)
1.2
6
1000
0.300
1.2
6
2000
0.212
1.8
6
600
0.412
2.6
6
600
0.412
4.0
6
600
0.412
4.0
6
500
0.514
5.7
6
300
0.663
8.2
6
75
1.327
8.2
6
200
0.812
12.0
8
150
0.938
12.0
6
80
1.500
12.0
6
100
1.342
18.0
6
70
1.604
18.0
6
100
1.342
26.4
8
60
1.732
26.4
8
100
1.342
26.4
12
80
1.573
26.4
12
100
1.407
39.6
12
80
1.573
39.6
12
100
1.407
56.4
12
75
2.000
0.486
0.925
0.285
0.371
0.406
0.731
0.844
1.283
0.844
1.156
0.925
2.041
1.207
1.628
1.207
1.266
1.635
2.205
0.220
0.371
0.371
0.406
0.597
0.731
1.236
0.844
1.090
0.844
1.559
1.207
1.207
1.266
1.207
1.462
1.266
1.800
0.270
0.191
0.371
0.371
0.371
0.462
0.597
1.194
0.731
0.844
1.350
1.207
1.443
1.207
1.559
1.207
1.416
1.266
1.416
1.266
1.800
0.216
0.411
0.126
0.165
0.181
0.325
0.375
0.570
0.375
0.514
0.411
0.907
0.537
0.724
0.537
0.563
0.727
0.980
0.098
0.165
0.165
0.181
0.265
0.235
0.549
0.375
0.484
0.375
0.693
0.537
0.537
0.563
0.537
0.650
0.563
0.800
0.120
0.085
0.165
0.165
0.165
0.206
0.265
0.531
0.325
0.375
0.600
0.537
0.641
0.537
0.693
0.537
0.629
0.563
0.629
0.563
0.800
0.189
0.128
0.285
0.247
0.226
0.162
0.141
0.093
0.141
0.103
0.128
0.079
0.134
0.099
0.134
0.141
0.109
0.122
0.367
0.247
0.247
0.226
0.199
0.162
0.096
0.141
0.109
0.141
0.104
0.134
0.134
0.141
0.134
0.122
0.141
0.150
0.300
0.424
0.247
0.247
0.247
0.257
0.199
0.099
0.162
0.141
0.120
0.134
0.112
0.134
0.104
0.134
0.126
0.141
0.126
0.141
0.150
0.170
0.116
0.256
0.223
0.203
0.146
0.127
0.083
0.127
0.092
0.116
0.071
0.121
0.090
0.121
0.127
0.098
0.110
0.331
0.223
0.223
0.203
0.179
0.146
0.087
0.127
0.098
0.127
0.094
0.121
0.121
0.127
0.121
0.110
0.127
0.135
0.270
0.382
0.223
0.223
0.223
0.231
0.179
0.090
0.146
0.127
0.108
0.121
0.101
0.121
0.094
0.121
0.113
0.127
0.113
0.127
0.135
0.076
0.051
0.114
0.099
0.090
0.065
0.056
0.037
0.056
0.041
0.051
0.032
0.054
0.040
0.054
0.056
0.044
0.049
0.147
0.099
0.099
0.090
0.080
0.065
0.038
0.056
0.044
0.056
0.042
0.054
0.054
0.056
0.054
0.049
0.056
0.060
0.120
0.170
0.099
0.099
0.099
0.103
0.080
0.040
0.065
0.056
0.048
0.054
0.045
0.054
0.042
0.054
0.050
0.056
0.050
0.056
0.060
All technical data relates to an ambient temperature of +25ºC. Capacitance and DF are measured at 120Hz, 0.5RMS with DC bias of 2.2V. DCL is measured at
rated voltage after 5 minutes.
NOTE: AVX reserves the rights to supply higher voltage rating in the same case size, to the same reliability standards.
Recently, a colleague resigned and left a project. The project has a low-power motor driver board. The motor power is not large. The current is only 200mA/5V. The colleague used the RZ7888 chip. I saw...
I am in a very good mood today because I downloaded a resource from this website. It is very good and can greatly reduce the workload. It is very good....
It has been a while sinceI got the Wildfire MINI STM32 development board. This development board was won in the last community " RTT Developer Conference Live, In-depth Experience of RT-Thread " live ...
2.5D makes the vertical field distribution uniform. 2D does not consider the vertical component, and 3D can handle the non-uniform field distribution in the vertical direction. It can be seen that 2.5...
In addition to the keynote speech, this live broadcast also includes a demo development demonstration. If you want to follow the demo online,please click here to prepare in advance .
The live broadcas...
1. How to choose a current probe There are many types of clamp-on current probes available on the market, and there are many models for each type. So how should we choose? We should choose the most s...[Details]
News Highlights Recently, Royal Caribbean Cruises purchased 55,000 tablets equipped with Intel® Atom™ processors 15,000 of which were deployed on the world's first smart cruise ship, "Quantum of...[Details]
Apple shuts down App Store Connect for a week around the Christmas holidays every year to give App Store employees a break. This year, App Store Connect will be unavailable from December 23 to Decemb...[Details]
introduction
APD is the abbreviation of Amplitude Probability Distribution, which is amplitude probability distribution . It is a parameter used to describe the statistical characteristics o...[Details]
LED light strips are mainly used for decoration. Since many customers are not very familiar with them, they often miss some links when calculating the project quotation, which adds unnecessary costs ...[Details]
Gree invented an expandable drone control system and solution, which eliminates the one-to-one signal transmission relationship between the controller and the drone in the traditional drone system. W...[Details]
MB89P475 is a product of the F2MC-8L MB89470 microcontroller series produced by Fujitsu. This product has rich software and hardware resources and good EMC performance, and its program space (16k...[Details]
In the post-epidemic era, the pace of industrial upgrading has further accelerated. However, there are many challenges in the upgrading process, such as the continuous increase in labor costs ...[Details]
The HD-MDI system not only meets the needs of the traditional security industry for real-time monitoring without delay and compression, which cannot be obtained from the IPC system, but also makes ...[Details]
With the continuous development of power electronics technology and the emergence of microprocessing technology, especially digital signal processors (DSP), modern AC speed regulation systems based o...[Details]
The standard probe of the oscilloscope can only measure voltage. In fact, the oscilloscope itself can only measure voltage. If you want to measure current, you must use a current probe. The current p...[Details]
Will the stepper motor burn out if it stalls?
If a stepper motor is stalled for a long time, it will be damaged or even burnt out due to overheating, so stalling of the stepper motor should be...[Details]
1. Ethernet physical layer (PHY) chip
Ethernet physical layer (PHY) chips are physical interface transceivers for Ethernet transmission. They are used in many fields such as communications, au...[Details]
1 Introduction
Electromagnetic interference (EMI) is the lack of electromagnetic compatibility, which is the process of destructive electromagnetic energy from one electronic device to ano...[Details]
With sensors ranging in cost from $15 to $1, automakers wonder how many sensors are needed for a vehicle to be fully autonomous. These sensors are used to collect data about the surrounding environ...[Details]
Motor Drive Control(Motor Control)
京公网安备 11010802033920号
EEWORLD
