K = ±10% 006 = 6Vdc C = Std ESR S = 13" T&R L = Group A
represent
J = ±5%
010 = 10Vdc L = Low ESR W = Waffle
M = MIL (JAN)
significant
015 = 15Vdc
CWR11
figures 3rd
020 = 20Vdc
See page 5
digit represents
025 = 25Vdc
for additional
multiplier
035 = 35Vdc
(number of
packaging
zeros to follow)
050 = 50Vdc
options.
Reliability Grade
Qualification Termination Finish
Level
Weibull:
H = Solder Plated
0 = N/A
B = 0.1%/1000 hrs.
0 = Fused Solder
90% conf.
Plated
9 = SRC9000
C = 0.01%/1000 hrs.
8 = Hot Solder
90% conf.
Dipped
D = 0.001%/1000 hrs.
9 = Gold Plated
90% conf.
7 = Matte Sn
T = T Level
(COTS-Plus only)
Z = Non-ER
CWR11 P/N CROSS REFERENCE:
CWR11
Type
D
Voltage
Code
C = 4Vdc
D = 6Vdc
F = 10Vdc
H = 15Vdc
J = 20Vdc
K = 25Vdc
M = 35Vdc
N = 50Vdc
^
Termination
Finish
H = Solder Plated
K = Solder Fused
C = Hot Solder
Dipped
B = Gold Plated
686
Capacitance
Code
pF code:
1st two digits
represent
significant
figures 3rd digit
represents
multiplier
(number of zeros
to follow)
*
Capacitance
Tolerance
M = ±20%
K = ±10%
J = ±5%
@
Reliability
Grade
Weibull:
B = 0.1%/1000 hrs.
90% conf.
C = 0.01%/1000 hrs.
90% conf.
D = 0.001%/1000
hrs. 90% conf.
T = T Level
A = Non-ER
+
Surge Test
Option
A = 10 cycles, +25°C
B = 10 cycles,
-55°C & +85°C
C = 10 cycles,
-55°C & +85°C
before Weibull
If blank,
None required
Packaging
Bulk = Standard
\TR = 7" T&R
\TR13 = 13" T&R
\W = Waffle
See page 5
for additional
packaging
options.
SPACE LEVEL OPTIONS TO SRC9000*:
TBJ D
Type
Case
Size
686
*
006
C
L
@
9
^
++
Surge Test
Option
00 = 10 Cycles,
-55ºC & +85ºC
45 = 10 cycles,
-55ºC & +85ºC
before Weibull
Capacitance Capacitance
Voltage
Standard or Packaging Inspection Level
Code
Tolerance
Code
Low ESR
L = Group A
B = Bulk
pF code:
M = ±20% 004 = 4Vdc
Range
R = 7" T&R
1st two digits
K = ±10% 006 = 6Vdc C = Std ESR S = 13" T&R
represent
J = ±5%
010 = 10Vdc L = Low ESR W = Waffle
significant
015 = 15Vdc
figures 3rd
020 = 20Vdc
See page 5
digit represents
025 = 25Vdc
for additional
multiplier
035 = 35Vdc
(number of
packaging
zeros to follow)
050 = 50Vdc
options.
Reliability Grade
Qualification Termination Finish
Level
Weibull:
H = Solder Plated
9 = SRC9000 0 = Fused Solder
B = 0.1%/1000 hrs.
90% conf.
Plated
C = 0.01%/1000 hrs.
8 = Hot Solder
90% conf.
Dipped
D = 0.001%/1000 hrs.
9 = Gold Plated
90% conf.
*Contact factory for AVX SRC9000 Space Level SCD details.
TECHNICAL SPECIFICATIONS
Technical Data:
Capacitance Range:
Capacitance Tolerance:
Rated Voltage: (V
R
)
Category Voltage: (V
C
)
Surge Voltage: (V
S
)
Temperature Range:
Unless otherwise specified, all technical
0.1 μF to 100 μF
±5%; ±10%; ±20%
4
6
10
16
2.7
4
7
10
5.2
8
13
20
3.4
5
8
13
-55°C to +125°C
data relate to an ambient temperature of 25°C
85°C:
125°C:
85°C:
125°C:
20
13
26
16
25
17
32
20
35
23
46
28
50
33
65
40
27
TBJ Series
CWR11 - MIL-PRF-55365/8
Established Reliability, COTS-Plus & Space Level
RATING & PART NUMBER REFERENCE
CWR11 P/N
CWR11C^225*@+
CWR11C^475*@+
CWR11C^685*@+
CWR11C^106*@+
CWR11C^156*@+
CWR11C^336*@+
CWR11C^686*@+
CWR11C^107*@+
CWR11D^155*@+
CWR11D^225*@+
CWR11D^335*@+
CWR11D^475*@+
CWR11D^685*@+
CWR11D^106*@+
CWR11D^156*@+
CWR11D^226*@+
CWR11D^476*@+
CWR11D^686*@+
CWR11F^105*@+
CWR11F^155*@+
CWR11F^225*@+
CWR11F^335*@+
CWR11F^475*@+
CWR11F^685*@+
CWR11F^156*@+
CWR11F^336*@+
CWR11F^476*@+
CWR11H^684*@+
CWR11H^105*@+
CWR11H^155*@+
CWR11H^225*@+
CWR11H^335*@+
CWR11H^475*@+
CWR11H^106*@+
CWR11H^226*@+
CWR11H^336*@+
CWR11J^474*@+
CWR11J^684*@+
CWR11J^105*@+
CWR11J^155*@+
CWR11J^225*@+
CWR11J^335*@+
CWR11J^475*@+
CWR11J^685*@+
CWR11J^156*@+
CWR11J^226*@+
CWR11K^334*@+
CWR11K^474*@+
CWR11K^684*@+
CWR11K^105*@+
CWR11K^155*@+
CWR11K^225*@+
CWR11K^335*@+
CWR11K^475*@+
CWR11K^685*@+
AVX COTS-Plus P/N
TBJA 225 * 004 C
TBJ A 475 * 004 C
TBJ B 685 * 004 C
TBJ B 106 * 004 C
TBJ B 156 * 004 C
TBJ C 336 * 004 C
TBJ D 686 * 004 C
TBJ D 107 * 004 C
TBJ A 155 * 006 C
TBJ A 225 * 006 C
TBJ A 335 * 006 C
TBJ B 475 * 006 C
TBJ B 685 * 006 C
TBJ B 106 * 006 C
TBJ C 156 * 006 C
TBJ C 226 * 006 C
TBJ D 476 * 006 C
TBJ D 686 * 006 C
TBJ A 105 * 010 C
TBJ A 155 * 010 C
TBJ A 225 * 010 C
TBJ B 335 * 010 C
TBJ B 475 * 010 C
TBJ B 685 * 010 C
TBJ C 156 * 010 C
TBJ D 336 * 010 C
TBJ D 476 * 010 C
TBJ A 684 * 015 C
TBJ A 105 * 015 C
TBJ A 155 * 015 C
TBJ B 225 * 015 C
TBJ B 335 * 015 C
TBJ B 475 * 015 C
TBJ C 106 * 015 C
TBJ D 226 * 015 C
TBJ D 336 * 015 C
TBJ A 474 * 020 C
TBJ A 684 * 020 C
TBJ A 105 * 020 C
TBJ B 155 * 020 C
TBJ B 225 * 020 C
TBJ B 335 * 020 C
TBJ C 475 * 020 C
TBJ C 685 * 020 C
TBJ D 156 * 020 C
TBJ D 226 * 020 C
TBJ A 334 * 025 C
TBJ A 474 * 025 C
TBJ B 684 * 025 C
TBJ B 105 * 025 C
TBJ B 155 * 025 C
TBJ C 225 * 025 C
TBJ C 335 * 025 C
TBJ C 475 * 025 C
TBJ D 685 * 025 C
# @ 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 ^ ++
Parametric Specifications by Rating per MIL-PRF-55365/8
Cap
DC Rated ESR @
DCL max
DF Max
@ 120Hz Voltage
100kHz
+25ºC
+85ºC
+125ºC
+25ºC
+(85/125)ºC
μF
V
Ohms
AVX SRC9000 P/N
Case
(μA)
(μA)
(μA)
(%)
(%)
@ 25ºC
@ +85ºC @ +25ºC
TBJ A 225 * 004 C L @ 0 ^ ++ A
2.2
4
8
0.5
5
6
6
9
TBJ A 475 * 004 C L @ 0 ^ ++ A
4.7
4
8
0.5
5
6
6
9
TBJ B 685 * 004 C L @ 9 ^ ++ B
6.8
4
5.5
0.5
5
6
6
9
TBJ B 106 * 004 C L @ 9 ^ ++ B
10
4
4
0.5
5
6
6
9
TBJ B 156 * 004 C L @ 9 ^ ++ B
15
4
3.5
0.6
6
7.2
6
9
TBJ C 336 * 004 C L @ 9 ^ ++ C
33
4
2.2
1.3
13
15.6
6
9
TBJ D 686 * 004 C L @ 9 ^ ++ D
68
4
1.1
2.7
27
32.4
6
9
TBJ D 107 * 004 C L @ 9 ^ ++ D
100
4
0.9
4
40
48
8
12
TBJ A 155 * 006 C L @ 9 ^ ++ A
1.5
6
8
0.5
5
6
6
9
TBJ A 225 * 006 C L @ 9 ^ ++ A
2.2
6
8
0.5
5
6
6
6
TBJ A 335 * 006 C L @ 9 ^ ++ A
3.3
6
8
0.5
5
6
6
9
TBJ B 475 * 006 C L @ 9 ^ ++ B
4.7
6
5.5
0.5
5
6
6
9
TBJ B 685 * 006 C L @ 9 ^ ++ B
6.8
6
4.5
0.5
5
6
6
9
TBJ B 106 * 006 C L @ 9 ^ ++ B
10
6
3.5
0.6
6
7.2
6
9
TBJ C 156 * 006 C L @ 9 ^ ++ C
15
6
3
0.9
9
10.8
6
9
TBJ C 226 * 006 C L @ 9 ^ ++ C
22
6
2.2
1.4
14
16.8
6
9
TBJ D 476 * 006 C L @ 9 ^ ++ D
47
6
1.1
2.8
28
33.6
6
9
TBJ D 686 * 006 C L @ 9 ^ ++ D
68
6
0.9
4.3
43
51.6
6
9
TBJ A 105 * 010 C L @ 9 ^ ++ A
1
10
10
0.5
5
6
4
6
TBJ A 155 * 010 C L @ 9 ^ ++ A
1.5
10
8
0.5
5
6
6
6
TBJ A 225 * 010 C L @ 9 ^ ++ A
2.2
10
8
0.5
5
6
6
9
TBJ B 335 * 010 C L @ 9 ^ ++ B
3.3
10
5.5
0.5
5
6
6
9
TBJ B 475 * 010 C L @ 9 ^ ++ B
4.7
10
4.5
0.5
5
6
6
9
TBJ B 685 * 010 C L @ 9 ^ ++ B
6.8
10
3.5
0.7
7
8.4
6
9
TBJ C 156 * 010 C L @ 9 ^ ++ C
15
10
2.5
1.5
15
18
6
6
TBJ D 336 * 010 C L @ 9 ^ ++ D
33
10
1.1
3.3
33
39.6
6
9
TBJ D 476 * 010 C L @ 9 ^ ++ D
47
10
0.9
4.7
47
56.4
6
9
TBJ A 684 * 015 C L @ 9 ^ ++ A
0.68
15
12
0.5
5
6
4
6
TBJ A 105 * 015 C L @ 9 ^ ++ A
1
15
10
0.5
5
6
4
6
TBJ A 155 * 015 C L @ 9 ^ ++ A
1.5
15
8
0.5
5
6
6
9
TBJ B 225 * 015 C L @ 9 ^ ++ B
2.2
15
5.5
0.5
5
6
6
9
TBJ B 335 * 015 C L @ 9 ^ ++ B
3.3
15
5
0.5
5
6
6
8
TBJ B 475 * 015 C L @ 9 ^ ++ B
4.7
15
4
0.7
7
8.4
6
9
TBJ C 106 * 015 C L @ 9 ^ ++ C
10
15
2.5
1.6
16
19.2
6
8
TBJ D 226 * 015 C L @ 9 ^ ++ D
22
15
1.1
3.3
33
39.6
6
8
TBJ D 336 * 015 C L @ 9 ^ ++ D
33
15
0.9
5.3
53
63.6
6
9
TBJ A 474 * 020 C L @ 9 ^ ++ A
0.47
20
14
0.5
5
6
4
6
TBJ A 684 * 020 C L @ 9 ^ ++ A
0.68
20
12
0.5
5
6
4
6
TBJ A 105 * 020 C L @ 9 ^ ++ A
1
20
10
0.5
5
6
4
6
TBJ B 155 * 020 C L @ 9 ^ ++ B
1.5
20
6
0.5
5
6
6
9
TBJ B 225 * 020 C L @ 9 ^ ++ B
2.2
20
5
0.5
5
6
6
8
TBJ B 335 * 020 C L @ 9 ^ ++ B
3.3
20
4
0.7
7
8.4
6
9
TBJ C 475 * 020 C L @ 9 ^ ++ C
4.7
20
3
1
10
12
6
8
TBJ C 685 * 020 C L @ 9 ^ ++ C
6.8
20
2.4
1.4
14
16.8
6
9
TBJ D 156 * 020 C L @ 9 ^ ++ D
15
20
1.1
3
30
36
6
8
TBJ D 226 * 020 C L @ 9 ^ ++ D
22
20
0.9
4.4
44
52.8
6
9
TBJ A 334 * 025 C L @ 9 ^ ++ A
0.33
25
15
0.5
5
6
4
6
TBJ A 474 * 025 C L @ 9 ^ ++ A
0.47
25
14
0.5
5
6
4
6
TBJ B 684 * 025 C L @ 9 ^ ++ B
0.68
25
7.5
0.5
5
6
4
6
TBJ B 105 * 025 C L @ 9 ^ ++ B
1
25
6.5
0.5
5
6
4
6
TBJ B 155 * 025 C L @ 9 ^ ++ B
1.5
25
6.5
0.5
5
6
6
8
TBJ C 225 * 025 C L @ 9 ^ ++ C
2.2
25
3.5
0.6
6
7.2
6
9
TBJ C 335 * 025 C L @ 9 ^ ++ C
3.3
25
3.5
0.9
9
10.8
6
8
TBJ C 475 * 025 C L @ 9 ^ ++ C
4.7
25
2.5
1.2
12
14.4
6
9
TBJ D 685 * 025 C L @ 9 ^ ++ D
6.8
25
1.4
1.7
17
20.4
6
9
-55ºC
(%)
9
9
9
9
9
9
9
12
9
9
9
9
9
9
9
9
9
9
6
9
9
9
9
9
9
9
9
6
6
9
9
9
9
9
9
9
6
6
6
9
9
9
9
9
9
9
6
6
6
6
9
9
9
9
9
25ºC
Dissipation
Ripple
A
W
(100kHz)
0.075
0.10
0.075
0.10
0.085
0.12
0.085
0.15
0.085
0.16
0.110
0.22
0.150
0.37
0.150
0.41
0.075
0.10
0.075
0.10
0.075
0.10
0.085
0.12
0.085
0.14
0.085
0.16
0.110
0.19
0.110
0.22
0.150
0.37
0.150
0.41
0.075
0.09
0.075
0.10
0.075
0.10
0.085
0.12
0.085
0.14
0.085
0.16
0.110
0.21
0.150
0.37
0.150
0.41
0.075
0.08
0.075
0.09
0.075
0.10
0.085
0.12
0.085
0.13
0.085
0.15
0.110
0.21
0.150
0.37
0.150
0.41
0.075
0.07
0.075
0.08
0.075
0.09
0.085
0.12
0.085
0.13
0.085
0.15
0.110
0.19
0.110
0.21
0.150
0.37
0.150
0.41
0.075
0.07
0.075
0.07
0.085
0.11
0.085
0.11
0.085
0.11
0.110
0.18
0.110
0.18
0.110
0.21
0.150
0.33
Power
Typical Ripple Data by Rating
85ºC
125ºC
25ºC
Ripple
Ripple
Ripple
A
A
V
(100kHz) (100kHz) (100kHz)
0.09
0.04
0.77
0.09
0.04
0.77
0.11
0.05
0.68
0.13
0.06
0.58
0.14
0.06
0.55
0.20
0.09
0.49
0.33
0.15
0.41
0.37
0.16
0.37
0.09
0.04
0.77
0.09
0.04
0.77
0.09
0.04
0.77
0.11
0.05
0.68
0.12
0.05
0.62
0.14
0.06
0.55
0.17
0.08
0.57
0.20
0.09
0.49
0.33
0.15
0.41
0.37
0.16
0.37
0.08
0.03
0.87
0.09
0.04
0.77
0.09
0.04
0.77
0.11
0.05
0.68
0.12
0.05
0.62
0.14
0.06
0.55
0.19
0.08
0.52
0.33
0.15
0.41
0.37
0.16
0.37
0.07
0.03
0.95
0.08
0.03
0.87
0.09
0.04
0.77
0.11
0.05
0.68
0.12
0.05
0.65
0.13
0.06
0.58
0.19
0.08
0.52
0.33
0.15
0.41
0.37
0.16
0.37
0.07
0.03
1.02
0.07
0.03
0.95
0.08
0.03
0.87
0.11
0.05
0.71
0.12
0.05
0.65
0.13
0.06
0.58
0.17
0.08
0.57
0.19
0.09
0.51
0.33
0.15
0.41
0.37
0.16
0.37
0.06
0.03
1.06
0.07
0.03
1.02
0.10
0.04
0.80
0.10
0.05
0.74
0.10
0.05
0.74
0.16
0.07
0.62
0.16
0.07
0.62
0.19
0.08
0.52
0.29
0.13
0.46
85ºC
Ripple
V
(100kHz)
0.70
0.70
0.62
0.52
0.49
0.44
0.37
0.33
0.70
0.70
0.70
0.62
0.56
0.49
0.52
0.44
0.37
0.33
0.78
0.70
0.70
0.62
0.56
0.49
0.47
0.37
0.33
0.85
0.78
0.70
0.62
0.59
0.52
0.47
0.37
0.33
0.92
0.85
0.78
0.64
0.59
0.52
0.52
0.46
0.37
0.33
0.95
0.92
0.72
0.67
0.67
0.56
0.56
0.47
0.41
125ºC
Ripple
V
(100kHz)
0.31
0.31
0.27
0.23
0.22
0.20
0.16
0.15
0.31
0.31
0.31
0.27
0.25
0.22
0.23
0.20
0.16
0.15
0.35
0.31
0.31
0.27
0.25
0.22
0.21
0.16
0.15
0.38
0.35
0.31
0.27
0.26
0.23
0.21
0.16
0.15
0.41
0.38
0.35
0.29
0.26
0.23
0.23
0.21
0.16
0.15
0.42
0.41
0.32
0.30
0.30
0.25
0.25
0.21
0.18
All technical data relates to an ambient temperature of +25°C. Capacitance and DF are measured at 120Hz, 0.5V RMS with a maximum DC bias of 2.2 volts. DCL is measured at rated voltage after 5 minutes.
NOTE: AVX reserves the right to supply a higher voltage rating or tighter tolerance part in the same case size, to the same reliability standards.
28
TBJ Series
CWR11 - MIL-PRF-55365/8
Established Reliability, COTS-Plus & Space Level
RATING & PART NUMBER REFERENCE
CWR11 P/N
CWR11K^106*@+
CWR11K^156*@+
CWR11M^104*@+
CWR11M^154*@+
CWR11M^224*@+
CWR11M^334*@+
CWR11M^474*@+
CWR11M^684*@+
CWR11M^105*@+
CWR11M^155*@+
CWR11M^225*@+
CWR11M^335*@+
CWR11M^475*@+
CWR11M^685*@+
CWR11N^104*@+
CWR11N^154*@+
CWR11N^224*@+
CWR11N^334*@+
CWR11N^474*@+
CWR11N^684*@+
CWR11N^105*@+
CWR11N^155*@+
CWR11N^225*@+
CWR11N^335*@+
CWR11N^475*@+
AVX COTS-Plus P/N
TBJ D 106 * 025 C
TBJ D 156 * 025 C
TBJ A 104 * 035 C
TBJ A 154 * 035 C
TBJ A 224 * 035 C
TBJ A 334 * 035 C
TBJ B 474 * 035 C
TBJ B 684 * 035 C
TBJ B 105 * 035 C
TBJ C 155 * 035 C
TBJ C 225 * 035 C
TBJ C 335 * 035 C
TBJ D 475 * 035 C
TBJ D 685 * 035 C
TBJ A 104 * 050 C
TBJ B 154 * 050 C
TBJ B 224 * 050 C
TBJ B 334 * 050 C
TBJ C 474 * 050 C
TBJ C 684 * 050 C
TBJ C 105 * 050 C
TBJ D 155 * 050 C
TBJ D 225 * 050 C
TBJ D 335 * 050 C
TBJ D 475 * 050 C
# @ 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 ^ ++
Parametric Specifications by Rating per MIL-PRF-55365/8
Cap
DC Rated ESR @
DCL max
DF Max
@ 120Hz Voltage
100kHz
+25ºC
+85ºC
+125ºC
+25ºC
+(85/125)ºC
μF
V
Ohms
AVX SRC9000 P/N
Case
(μA)
(μA)
(μA)
(%)
(%)
@ 25ºC
@ +85ºC @ +25ºC
TBJ D 106 * 025 C L @ 9 ^ ++ D
10
25
1.2
2.5
25
30
6
8
TBJ D 156 * 025 C L @ 9 ^ ++ D
15
25
1
3.8
38
45.6
6
9
TBJ A 104 * 035 C L @ 9 ^ ++ A
0.1
35
24
0.5
5
6
4
6
TBJ A 154 * 035 C L @ 9 ^ ++ A
0.15
35
21
0.5
5
6
4
6
TBJ A 224 * 035 C L @ 9 ^ ++ A
0.22
35
18
0.5
5
6
4
6
TBJ A 334 * 035 C L @ 9 ^ ++ A
0.33
35
15
0.5
5
6
4
6
TBJ B 474 * 035 C L @ 9 ^ ++ B
0.47
35
10
0.5
5
6
4
6
TBJ B 684 * 035 C L @ 9 ^ ++ B
0.68
35
8
0.5
5
6
4
6
TBJ B 105 * 035 C L @ 9 ^ ++ B
1
35
6.5
0.5
5
6
4
6
TBJ C 155 * 035 C L @ 9 ^ ++ C
1.5
35
4.5
0.5
5
6
6
8
TBJ C 225 * 035 C L @ 9 ^ ++ C
2.2
35
3.5
0.8
8
9.6
6
8
TBJ C 335 * 035 C L @ 9 ^ ++ C
3.3
35
2.5
1.2
12
14.4
6
8
TBJ D 475 * 035 C L @ 9 ^ ++ D
4.7
35
1.5
1.7
17
20.4
6
8
TBJ D 685 * 035 C L @ 9 ^ ++ D
6.8
35
1.3
2.4
24
28.8
6
9
TBJ A 104 * 050 C L @ 9 ^ ++ A
0.1
50
22
0.5
5
12
6
8
TBJ B 154 * 050 C L @ 9 ^ ++ B
0.15
50
17
0.5
5
6
4
6
TBJ B 224 * 050 C L @ 9 ^ ++ B
0.22
50
14
0.5
5
6
4
6
TBJ B 334 * 050 C L @ 9 ^ ++ B
0.33
50
12
0.5
5
6
4
6
TBJ C 474 * 050 C L @ 9 ^ ++ C
0.47
50
8
0.5
5
6
4
6
TBJ C 684 * 050 C L @ 9 ^ ++ C
0.68
50
7
0.5
5
6
4
6
TBJ C 105 * 050 C L @ 9 ^ ++ C
1
50
6
0.5
5
6
4
6
TBJ D 155 * 050 C L @ 9 ^ ++ D
1.5
50
4
0.8
8
9.6
6
8
TBJ D 225 * 050 C L @ 9 ^ ++ D
2.2
50
2.5
1.1
11
13.2
6
8
TBJ D 335 * 050 C L @ 9 ^ ++ D
3.3
50
2
1.7
17
20.4
6
9
TBJ D 475 * 050 C L @ 9 ^ ++ D
4.7
50
1.5
2.4
24
28.8
6
9
-55ºC
(%)
9
9
6
6
6
6
6
6
6
9
9
9
9
9
8
6
6
6
6
6
6
9
9
9
9
25ºC
Dissipation
Ripple
A
W
(100kHz)
0.150
0.35
0.150
0.39
0.075
0.06
0.075
0.06
0.075
0.06
0.075
0.07
0.085
0.09
0.085
0.10
0.085
0.11
0.110
0.16
0.110
0.18
0.110
0.21
0.150
0.32
0.150
0.34
0.075
0.06
0.085
0.07
0.085
0.08
0.085
0.08
0.110
0.12
0.110
0.13
0.110
0.14
0.150
0.19
0.150
0.24
0.150
0.27
0.150
0.32
Power
Typical Ripple Data by Rating
85ºC
125ºC
25ºC
Ripple
Ripple
Ripple
A
A
V
(100kHz) (100kHz) (100kHz)
0.32
0.14
0.42
0.35
0.15
0.39
0.05
0.02
1.34
0.05
0.02
1.25
0.06
0.03
1.16
0.06
0.03
1.06
0.08
0.04
0.92
0.09
0.04
0.82
0.10
0.05
0.74
0.14
0.06
0.70
0.16
0.07
0.62
0.19
0.08
0.52
0.28
0.13
0.47
0.31
0.14
0.44
0.05
0.02
1.28
0.06
0.03
1.20
0.07
0.03
1.09
0.08
0.03
1.01
0.11
0.05
0.94
0.11
0.05
0.88
0.12
0.05
0.81
0.17
0.08
0.77
0.22
0.10
0.61
0.25
0.11
0.55
0.28
0.13
0.47
85ºC
Ripple
V
(100kHz)
0.38
0.35
1.21
1.13
1.05
0.95
0.83
0.74
0.67
0.63
0.56
0.47
0.43
0.40
1.16
1.08
0.98
0.91
0.84
0.79
0.73
0.70
0.55
0.49
0.43
125ºC
Ripple
V
(100kHz)
0.17
0.15
0.54
0.50
0.46
0.42
0.37
0.33
0.30
0.28
0.25
0.21
0.19
0.18
0.51
0.48
0.44
0.40
0.38
0.35
0.32
0.31
0.24
0.22
0.19
All technical data relates to an ambient temperature of +25°C. Capacitance and DF are measured at 120Hz, 0.5V RMS with a maximum DC bias of 2.2 volts. DCL is measured at rated voltage after 5 minutes.
NOTE: AVX reserves the right to supply a higher voltage rating or tighter tolerance part in the same case size, to the same reliability standards.
The APC240 module can work in the voltage range of 2.1-3.6V, and consumes only 4 mA in the receiving state. There are four working modes. In the 1-second cycle polling wake-up power saving mode, the r...
I haven't even started playing, but it's already been a few weeks since I set up the environment.
Now many manufacturers are building environmental resources, why can't the environmental information b...
[b] The Bluetooth module I use is the Bluetooth 4.0 module of NetBee. I don’t know if I can successfully obtain data. I hope everyone can discuss it here. To solve the embarrassment of having a Sensor...
I'm quite interested in the course that students majoring in automation take. I wonder if this course is offered in universities across the country for electronic information engineering majors? :P :$...
[i=s]This post was last edited by xld0932 on 2021-4-8 23:32[/i]The main purpose of this article is to master USART communication, realize data sending and receiving operations, and use the interrupt m...
The Portable Digital Data Acquisition System (PDDAS) uses LabVIEW Real-Time and PXI to control the wind tunnel test and record air pressure data from 128 different channels.
"The LabVIEW Real-...[Details]
The Portable Digital Data Acquisition System (PDDAS) uses LabVIEW Real-Time and PXI to control the wind tunnel test and record air pressure data from 128 different channels.
"The LabVIEW Real-...[Details]
As LEDs continue to improve in almost every aspect of performance and cost, LED lighting is being used in an increasingly wide range of applications, among which LED street lights are a focus of in...[Details]
My colleague and I spent the day chatting in the hotel bar. We had met with several customers. We were both wondering how come these engineers we were meeting knew almost nothing about analog techn...[Details]
1. Introduction
With the gradual automation and modernization of industrial control systems, fieldbus control systems have received more and more attention and application. CAN bus is currentl...[Details]
1 Introduction
The Third Steel Plant of Jigang Group is a key investment project of Jigang Group during the "15th Five-Year Plan". It has introduced first-class domestic and foreign advanced eq...[Details]
Smart lighting control systems provide high controllability for various buildings and further enhance the level of green energy. They are the core products of energy conservation and digital techn...[Details]
With the continuous consumption of earth's energy and the scarcity of resources, the harm of greenhouse effect to human beings, and the serious pollution of the atmosphere to the earth, the intern...[Details]
In the analysis of electronic circuits, static analysis (also known as DC analysis) is the basis of circuit analysis. However, it is well known that electronic components are nonlinear, so the anal...[Details]
RS-422 and RS-485 are both serial data interface standards, which were developed and published by the Electronic Industries Association (EIA). RS-422 defines a balanced communication interface with a ...[Details]
The traditional display screen using 51 single-chip microcomputer to control LED dot matrix has relatively simple functions. If it is to achieve diversified functions, it often takes a lot of time ...[Details]
Among the many members of the single-chip microcomputer family, the MCS-51 series of single-chip microcomputers has occupied the main market of industrial measurement and control and automation eng...[Details]
From the previous section, we have learned that the timer/counter in the microcontroller can have multiple uses, so how can I make them work for the purpose I need? This requires setting the timer/...[Details]
FPGAs are used in 81% of electronic systems, including many commercial and defense products, and most FPGAs use BGA packaging. The BGA packaging is characterized by small solder balls and small sol...[Details]
Describe how to meet the challenges of complexity with a modern wiring design toolset. Option codes and expressions can simulate the variables of an automotive project. A full-featured tool suite c...[Details]
Electronics Design Contest
京公网安备 11010802033920号
EEWORLD
