592D158X06R3Y4T [VISHAY]
CAPACITOR, TANTALUM, SOLID, POLARIZED, 6.3V, 1500uF, SURFACE MOUNT, 5829, CHIP, LEAD FREE;型号: | 592D158X06R3Y4T |
厂家: | VISHAY |
描述: | CAPACITOR, TANTALUM, SOLID, POLARIZED, 6.3V, 1500uF, SURFACE MOUNT, 5829, CHIP, LEAD FREE 电容器 |
文件: | 总11页 (文件大小:207K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
592D
Vishay Sprague
Solid Tantalum Chip Capacitors
®
TANTAMOUNT , Low Profile, Conformal Coated,
Maximum CV
FEATURES
• New extended range offerings.
• 1.0mm to 2.5mm height.
• Terminations: Lead (Pb)-free (2) standard.
• Low Impedance
• 8mm, 12mm and 24mm tape and reel packaging
available per EIA-481-1 and reeling per IEC 286-3. 7”
[178mm] standard.
13” [330mm] available.
• Case code compatibility with EIA 535BAAC and
CECC 30801 molded chips.
PERFORMANCE CHARACTERISTICS
Capacitance Range: 1.0µF to 3300µF
Capacitance Tolerance: ±10%, ±20% standard.
Voltage Rating: 4 WVDC to 35 WVDC
Operating Temperature: - 55°C to + 85°C. (To + 125°C
with voltage derating.)
ORDERING INFORMATION
592D
106
X0
T
010
B
2
TYPE
CAPACITANCE
CAPACITANCE
TOLERANCE
REEL SIZE AND
PACKAGING
DC VOLTAGE RATING CASE CODE
TERMINATION
@ + 85°C
This is expressed in
This is expressed in volts. To
complete the three-digit block,
zeros precede the voltage rating.
A decimal point is indicated by
an "R" (6R3 = 6.3 volts).
2 = 100% Tin
See Ratings
and Case
Codes Table.
T = Tape and Reel
7" [178mm] Reel
W = 13” [330mm] Reel
X0 = ±20%
X9 = ± 10%
picofarads. The first two
digits are the significant
figures. The third is the
number of zeros to follow.
4 = Gold Plated
8 = Solder plated
60/40 special
order
Note: Preferred Tolerance and reel sizes are in bold.
We reserve the right to supply higher voltage ratings and tighter capacitance tolerance capacitors in the same case size.
Voltage substitutions will be marked with the higher voltage rating.
DIMENSIONS in inches [millimeters]
W
Tantalum Wire Nib
Identifies Anode
(+) Terminal
L
B
J
J
D
A
H
CASE CODE
L (Max.)
0.146
[3.7]
0.158
[4.0]
0.281
[7.1]
0.298
[7.5]
0.285
[7.2]
0.126 ± 0.012
[3.2 ± 0.3]
0.158
[4.0]
W
H
A
B
D (Ref.)
0.115
[2.9]
0.139
[3.5]
0.238
[6.0]
0.254
[6.4]
0.246
[6.2]
0.087
[2.2]
0.139
[3.5]
0.238
[6.0]
0.254
[6.4]
0.246
[6.2]
0.524
[13.2]
0.524
[13.2]
J (Max.)
0.004
[0.1]
0.004
[0.1]
0.004
[0.1]
0.004
[0.1]
0.004
[0.1]
0.004
[0.1]
0.004
[0.1]
0.004
[0.1]
0.004
[0.1]
0.004
[0.1]
0.004
[0.1]
0.004
[0.1]
0.072 ± 0.012
[1.8 ± 0.3]
0.110 + 0.012-0.016 0.047 ± 0.012
[2.8 + 0.3-0.4]
0.126 ± 0.012
[3.2 ± 0.3]
0.170 ± 0.012
[4.3 ± 0.3]
0.235 ± 0.012
[6.0 ± 0.3]
0.063 ± 0.012
[1.6 ± 0.3]
0.116 ± 0.012
[2.8 ± 0.3]
0.126 ± 0.012
[3.2 ± 0.3]
0.048 ± 0.012
[1.2 ± 0.3]
0.031 ± 0.012
[0.80 ± 0.30]
0.031 ± 0.012
[0.80 ± 0.30]
0.051 ± 0.012
[1.3 ± 0.30]
0.051 ± 0.012
[1.3 ± 0.30]
0.051 ± 0.012
[1.3 ± 0.30]
0.031 ± 0.012
[0.8 ± 0.3]
0.031 ± 0.012
[0.8 ± 0.3]
0.051 ± 0.012
[1.3 ± 0.3]
0.051 ± 0.012
[1.3 ± 0.3]
0.051 ± 0.012
[1.3 ± 0.3]
0.087 ± 0.016
[2.2 ± 0.4]
0.097 ± 0.016
[2.5 ± 0.4]
0.180 ± 0.024
[4.4 ± 0.6]
0.180 ± 0.024
[4.6 ± 0.6]
0.180 ± 0.024
[4.6 ± 0.6]
0.079 ± 0.012
[2.0 ± 0.3]
0.097 ± 0.016
[2.5 ± 0.4]
0.180 ± 0.024
[4.6 ± 0.6]
0.180 ± 0.024
[4.6 ± 0.6]
A
B
C
D
R
S
T
[1.2 ± 0.3]
0.047 ± 0.012
[1.2 ± 0.3]
0.047 ± 0.012
[1.2 ± 0.3]
0.047 ± 0.012
[1.2 ± 0.3]
0.040 ± 0.012
[1.0 ± 0.3]
0.079
[2.0] Max.
0.079
0.281
[7.1]
0.298
[7.5]
0.285
[7.2]
0.575
[14.5]
0.575
[14.5]
U
V
W
X
Y
[2.0] Max.
0.079
0.170 ± 0.012
[4.3 ± 0.3]
[2.0] Max.
0.079
0.235 ± 0.012
[6.0 ± 0.3]
0.290 ± 0.010
[7.37 ± 0.25]
0.290 ± 0.010
[7.37 ± 0.25]
0.180 ± 0.024
[4.6 ± 0.6]
0.470 ± 0.024
[11.9 ± 0.6]
0.470 ± 0.024
[11.9 ± 0.6]
[2.0] Max.
0.079
0.050 ± 0.016
[1.3 ± 0.4]
0.051 ± 0.016
[1.3 ± 0.4]
[2.0] Max.
0.098
[2.5] Max.
Note: The anode termination (D less B) will be a minimum of 0.012" [0.3mm].
www.vishay.com
74
Document Number 40004
Revision 03-Dec-04
For technical questions, contact tantalum@vishay.com
592D
Vishay Sprague
RATINGS AND CASE CODES
µF
4 V
6.3 V
10 V
STD
16 V
STD
20 V
25 V
35 V
EXT
STD
EXT
STD
EXT
EXT
EXT
STD
EXT
STD
EXT
STD
B
1
A
1.5
2.2
3.3
4.7
6.8
10
15
22
33
47
B
C
D
R
B
C
C
D
R
A
B
B*
C
A
A
B
B*
C
C/D
R/T*
C*
B
C
D
R
A
B
B
C
D
R
B
C
D
D/T
R/T
U
V
V
W
C
B/D
R
R
D
R
B
A
B
A
A/B
A/S
U*
U*/V*
B
A
B
B*
C
D/T*
R/T
D/R/U*
D/U
V
B
C
D
C/T
R
U
R/U*/T
V*
B/C
C/D
D/T/R
D/R
D/U
V
C
D
R/T
D/R
U/V
V
A/B
68
B/C
C/D
C/T
R
R/U
D/U/V
V/W
W
B/C
B/C/T
R
D/R/U
R/U/V
V/U/W
W
X/W
X/Y
X/Y*
Y
R
100
150
220
330
470
680
1000
1500
2200
3300
C*/D/U
D
V
V/W
W
W
W
W
X
X/Y
* Contact factory for availability
STANDARD / EXTENDED RATINGS
Max. DF
@ + 25°C
120 Hz
(%)
Max. ESR
@ + 25°C
100kHz
Max. RIPPLE
100kHz
Irms
Max. DCL
CAPACITANCE
CASE
CODE
@ + 25°C
(µF)
PART NUMBER
(µA)
(Ohms)
(Amps)
4 WVDC @ + 85°C, SURGE = 5.2 V . . . 2.7 WVDC @ + 125°C, SURGE = 3.4 V
22
22
33
47*
47
68
A
B
592D226X_004A2T
592D226X_004B2T
592D336X_004B2T
592D476X_004B2T*
592D476X_004C2T
592D686X_004B2T
592D686X_004C2T
592D686X_004D2T
592D107X_004C2T
592D107X_004D2T
592D107X_004R2T
592D107X_004T2T
592D157X_004C2T
592D157X_004D2T
592D157X_004R2T
592D157X_004T2T
592D227X_004R2T
592D227X_004V2T
592D227X_004U2T
592D337X_004R2T
592D337X_004U2T
592D337X_004V2T
592D477X_004D2T
592D477X_004U2T
592D477X_004V2T
592D477X_004W2T
592D687X_004V2T
592D687X_004W2T
592D108X_004W2T
592D158X_004X2T
592D228X_004Y2T
592D228X_004X2T
0.9
0.9
1.3
1.9*
1.9
2.7
2.7
2.7
4
4
4
4
6
6
6
6
6*
6
6
6
6
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
10
12
12
14
20
25
25
2.40
1.60
1.60
1.5*
0.16
0.22
0.22
0.23*
0.5
B
B*
C
B
C
D
C
D
R
T
C
D
R
T
R
V
U
R
U
V
D
U
V
W
V
W
W
X
0.40
1.40
0.35
0.27
0.35
0.26
0.20
0.45
0.36
0.25
0.20
0.45
0.20
0.20
0.19
0.18
0.15
0.12
0.14
0.10
0.10
0.10
0.10
0.10
0.200
0.04
0.04
0.55
0.24
0.53
0.68
0.53
0.69
0.87
0.42
0.52
0.71
0.87
0.42
0.87
0.78
0.76
0.91
0.86
1.08
0.94
1.05
1.18
1.32
1.18
1.32
0.94
2.1
68
68
100
100
100
100
150
150
150
150
220
220
220
330
330
330
470
470
470
470
680
680
1000
1500
2200
2200
6
6
6
8.3
8.3
8.3
13.2
13.2
13.2
18.8
18.8
18.8
18.8
27.2
27.2
40
60
88
88
Y
X
2.3
2.3
*Preliminary values, contact factory for availability. For 10% tolerance, specify "9"; for 20% tolerance, change to "0". Extended range ratings are in bold print.
For technical questions, contact tantalum@vishay.com
Document Number 40004
Revision 03-Dec-04
www.vishay.com
75
592D
Vishay Sprague
STANDARD / EXTENDED RATINGS
Max. DF
@ + 25°C
120 Hz
(%)
Max. ESR
@ + 25°C
100kHz
Max. RIPPLE
100kHz
Irms
Max. DCL
@ + 25°C
(µA)
CAPACITANCE
CASE
CODE
(µF)
PART NUMBER
(Ohms)
(Amps)
6.3 WVDC @ + 85°C, SURGE = 8 V . . . 4 WVDC @ + 125°C, SURGE = 5 V
15
15
A
B
A
A
B
A
B
C
S
S
A
B
C
D
B
B
C
D
R
T
592D156X_6R3A2T
592D156X_6R3B2T
592D226X_6R3A2T
592D226X_6R3A2T13H**
592D226X_6R3B2T
592D336X_6R3A2T
592D336X_6R3B2T
592D336X_6R3C2T
592D336X_6R3S2T
592D336X_6R3S2T12H**
592D476X_6R3A2T
592D476X_6R3B2T
592D476X_6R3C2T
592D476X_6R3D2T
592D686X_6R3B2T
592D686X_6R3B2T13H**
592D686X_6R3C2T
592D686X_6R3D2T
592D686X_6R3R2T
592D686X_6R3T2T
592D107X_6R3B2T15H**
592D107X_6R3C2T
592D107X_6R3D2T
592D107X_6R3R2T
592D107X_6R3T2T
592D157X_6R3D2T
592D157X_6R3R2T
592D157X_6R3U2T
592D227X_6R3D2T
592D227X_6R3R2T
592D227X_6R3U2T
592D227X_6R3V2T
592D337X_6R3C2T16H**
592D337X_6R3R2T
592D337X_6R3U2T
592D337X_6R3V2T
592D337X_6R3W2T
592D477X_6R3U2T
592D477X_6R3V2T
592D477X_6R3W2T
592D687X_6R3R2T16H**
592D687X_6R3W2T
592D108X_6R3W2T
592D108X_6R3X2T
592D158X_6R3Y2T
592D158X_6R3X2T
592D228X_6R3Y2T*
592D228X_6R3X2T
592D338X_6R3Y2T
0.9
0.9
1.4
1.4
1.4
2.1
2.1
2.1
2.1
2.1
3
6
6
2.50
1.70
1.5
0.15
0.22
0.23
0.2
0.23
0.32
0.24
0.5
0.28
0.17
0.21
0.21
0.5
0.65
0.46
0.36
0.51
0.68
0.87
0.4
22
6
22
6
1.5
22
6
1.5
33
6
1.70
1.40
0.40
1.3
33
6
33
6
33
8
33
10
8
2.0
47
1.40
1.40
0.40
0.30
0.38
0.60
0.38
0.27
0.20
0.50
1.0
47
3
8
47
3
3
6
47
6
68
4.3
4.3
4.3
4.3
4.3
4.3
6.3
6.3
6.3
6.3
6.3
9.5
9.5
9.5
13.9
13.9
13.9
13.9
20.8
20.8
20.8
20.8
20.8
29.6
29.6
29.6
42.8
42.8
63
6
68
8
68
6
68
6
68
6
68
6
100
100
100
100
100
150
150
150
220
220
220
220
330
330
330
330
330
470
470
470
680
680
1000
1000
1500
1500
2200*
2200
3300
B
C
D
R
T
10
8
0.28
0.51
0.69
0.87
0.42
0.71
0.87
0.76
0.75
0.91
0.86
1.08
0.81
0.91
1.05
1.18
1.32
1.05
1.18
1.32
1.16
1.32
0.94
2.1
0.38
0.26
0.20
0.45
0.25
0.20
0.19
0.22
0.18
0.15
0.12
0.15
0.18
0.10
0.10
0.10
0.10
0.10
0.10
0.13
0.100
0.2
8
8
8
D
R
U
D
R
U
V
C
R
U
V
W
U
V
W
R
W
W
X
Y
X
Y*
X
Y
8
8
8
8
8
8
8
10
8
8
8
8
14
10
10
14
10
20
16
20
25
35*
35
35
63
0.04
0.035
0.045
0.055*
0.055
0.055
95
2.3
95
1.97
1.80*
1.80
1.80
139*
139
208
10 WVDC @ + 85°C, SURGE = 13 V . . . 7 WVDC @ + 125°C, SURGE = 8 V
10
10
A
B
592D106X_010A2T
592D106X_010B2T
592D226X_010B2T
592D226X_010C2T
592D336X_010C2T
592D336X_010D2T
592D336X_010T2T*
592D476X_010D2T
592D476X_010R2T
592D476X_010T2T
592D686X_010C2T
592D686X_010D2T
592D686X_010R2T
592D686X_010T2T
592D686X_010U2T*
592D107X_010D2T
592D107X_010U2T
592D107X_010R2T
592D157X_010U2T
592D157X_010V2T
592D227X_010V2T
592D227X_010W2T
592D337X_010V2T*
592D337X_010W2T
1
1
6
6
2.60
1.70
1.50
0.40
0.40
0.30
0.50*
0.27
0.20
0.50
0.40
0.27
0.20
0.45
0.25*
0.10
0.19
0.22
0.17
0.14
0.12
0.10
0.10*
0.10
0.15
0.22
0.23
0.50
0.50
0.65
0.40*
0.68
0.87
0.40
0.50
0.68
0.87
0.42
0.66*
1.11
0.76
0.83
0.80
1.00
1.08
1.32
1.18*
1.32
22
B
C
C
D
T*
D
R
T
2.2
2.2
3.3
3.3
3.3*
4.7
4.7
4.7
6.8
6.8
6.8
6.8
6.8*
10
6
22
6
33
6
6
33
33*
47
6*
6
47
6
47
6
68
C
D
R
T
6
68
6
68
6
68
6
68*
100
100
100
150
150
220
220
330*
330
U*
D
U
R
U
V
6*
8
10
8
10.0
15
8
8
15
8
V
22
8
W
V*
W
22
8
33*
33
8*
8
** xyH indicates maximum height in (mm), i.e., 1.5 max (H) = 15Hmm
*Preliminary values, contact factory for availability. For 10% tolerance, specify "9"; for 20% tolerance, change to "0". Extended range ratings are in bold print.
*Voltage range under development.
www.vishay.com
76
Document Number 40004
Revision 03-Dec-04
For technical questions, contact tantalum@vishay.com
592D
Vishay Sprague
STANDARD / EXTENDED RATINGS
Max. DF
@ + 25°C
120 Hz
(%)
Max. ESR
Max. RIPPLE
100kHz
Irms
Max. DCL
@ + 25°C
(µA)
@ + 25°C
100kHz
(Ohms)
CAPACITANCE
CASE
CODE
(µF)
PART NUMBER
(Amps)
16 WVDC @ + 85°C, SURGE = 20 V . . . 10 WVDC @ + 125°C, SURGE = 12 V
4.7
6.8
6.8
10
10
15*
15
22
22
22
33
33
33
33
47
47
47
68*
68
68
A
A
B
B
C
B*
D
C
D
T
C
D
R
T
R
T
U
C*
U
V
C*
D
U
V
592D475X_016A2T
592D685X_016A2T
592D685X_016B2T
592D106X_016B2T
592D106X_016C2T
592D156X_016B2T*
592D156X_016D2T
592D226X_016C2T
592D226X_016D2T
592D226X_016T2T
592D336X_016C2T
592D336X_016D2T
592D336X_016R2T
592D336X_016T2T
592D476X_016R2T
592D476X_016T2T
592D476X_016U2T
592D686X_016C2T*
592D686X_016U2T
592D686X_016V2T
592D107X_016C2T*
592D107X_016D2T
592D107X_016U2T
592D107X_016V2T
592D157X_016W2T
592D227X_016W2T
0.8
1.1
1.1
1.6
1.6
2.4*
2.4
3.5
3.5
3.5
5.3
5.3
5.3
5.3
7.5
7.5
7.5
10.9*
10.9
10.9
16*
16
6
6
6
6
6
6*
6
6
6
6
6
6
6
6
6
6
6
6*
6
6
8*
8
8
8
8
8
3.50
3.50
1.80
1.60
1.00
1.4*
0.50
0.50
0.40
0.6
0.13
0.13
0.21
0.22
0.32
0.24*
0.50
0.46
0.60
0.36
0.66
0.62
0.75
0.36
0.77
0.33
0.66
1.20*
0.66
0.91
1.80*
0.97
0.97
0.97
1.32
0.94
0.25
0.30
0.27
0.6
0.25
0.72
0.25
0.50*
0.25
0.17
0.30*
0.15
0.15
0.15
0.1
100*
100
100
100
150
220
16
16
24
35.2
W
W
0.2
20 WVDC @ + 85°C, SURGE = 26 V . . . 13 WVDC @ + 125°C, SURGE = 16 V
4.7
4.7
6.8
6.8
10
10
15
15
22
22
22
22*
33
33*
A
B
592D475X_020A2T
592D475X_020B2T
592D685X_020B2T
592D685X_020C2T
592D106X_020B2T
592D106X_020D2T
592D156X 020C2T
592D156X_020R2T
592D226X_020D2T
592D226X_020R2T
592D226X_020T2T
592D226X_020U2T*
592D336X_020R2T
592D336X_020V2T*
0.9
0.9
1.4
1.4
2
2
3
3
4.4
4.4
4.4
4.4*
6.6
6.6*
6
6
6
6
6
6
6
6
6
6
6
6*
6
6*
3.80
3.20
3.10
1.10
3.00
0.50
0.60
0.40
0.40
0.28
0.60
0.30*
0.28
0.26*
0.13
0.16
0.16
0.30
0.16
0.48
0.42
0.65
0.56
0.73
0.37
0.61*
0.73
0.73*
B
C
B
D
C
R
D
R
T
U*
R
V*
25 WVDC @ + 85°C, SURGE = 33 V . . . 17 WVDC @ + 125°C, SURGE = 20 V
2.2
2.2
3.3
3.3
4.7
6.8
6.8
10
10
10
15
15*
22*
22*
68
A
B
B
C
C
C
D
B
D
R
R
U*
U*
V*
R
592D225X_025A2T
592D225X_025B2T
592D335X_025B2T
592D335X_025C2T
592D475X_025C2T
592D685X_025C2T
592D685X_025D2T
592D106X_025B2T
592D106X_025D2T
592D106X_025R2T
592D156X_025R2T
592D156X_025U2T*
592D226X_025U2T*
592D226X_025V2T*
592D686X_025R2T20H
0.6
0.6
0.8
0.8
1.2
1.7
1.7
2.5
2.5
2.5
3.8
3.8*
5.5*
5.5*
17
6
6
6
6
6
6
6
6
6
6
6
6*
6*
6*
8
8.00
6.00
5.60
2.00
1.60
1.50
1.30
2.00
1.20
0.48
0.40
0.40*
0.30*
0.30*
0.23
0.09
0.12
0.12
0.22
0.25
0.26
0.31
0.115
0.32
0.56
0.61
0.52*
0.68*
0.68*
0.87
*Preliminary values, contact factory for availability. For 10% tolerance, specify "9"; for 20% tolerance, change to "0". Extended range ratings are in bold print.
*Voltage range under development.
For technical questions, contact tantalum@vishay.com
Document Number 40004
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77
592D
Vishay Sprague
STANDARD / EXTENDED RATINGS
Max. DF
@ + 25°C
120 Hz
(%)
Max. ESR
@ + 25°C
100kHz
Max. RIPPLE
100kHz
Irms
Max. DCL
@ + 25°C
(µA)
CAPACITANCE
CASE
CODE
(µF)
PART NUMBER
(Ohms)
(Amps)
35 WVDC @ + 85°C, SURGE = 46 V . . . 23 WVDC @ + 125°C, SURGE = 28 V
1
A
B
592D105X_035A2T
592D105X_035B2T
592D155X_035B2T
592D225X_035B2T*
592D225X_035C2T
592D335X_035C2T
592D335X_035D2T
592 D475X_035R2T
592 D685X_035D2T
592D685X_035R2T
592D106X_035R2T
0.5
0.5
0.5
0.8*
0.8
1.2
1.2
1.6
2.4
2.4
3.5
4
4
4
6*
6
6
6
6
6
6
6
10.0
6.50
4.2
0.08
0.11
0.14
0.12*
0.17
0.18
0.24
0.34
0.31
0.35
0.35
1
1.5
2.2*
2.2
3.3
3.3
4.7
6.8
6.8
10
B
B*
C
C
D
R
D
R
R
6.00*
3.50
3.20
2.10
1.30
1.30
1.20
1.20
TYPICAL CURVES OF ESR - AS A FUNCTION OF FREQUENCY
"B" Case
"A" Case
IMPEDANCE
1000
100
10
1000
100
10
IMPEDANCE
ESR
ESR
4.7µF, 20 V
1µF, 35
15µF, 6.3
1
1
10µF, 10 V
100
1K
10K
100K
100
1K
10K
100K
1M
0.1
FREQUENCY IN HERTZ
FREQUENCY IN HERTZ
"D" Case
"C" Case
1000
100
10
100
10
IMPEDANCE
ESR
IMPEDANCE
ESR
1
6.8µF, 25 V
4.7µF, 25 V
1
0.1
0.01
47µF, 6.3 V
33µF, 6.3 V
100
0.1
1K
10K
100K
1M
100
1K
10K
FREQUENCY IN HERTZ
100K
1M
FREQUENCY IN HERTZ
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Document Number 40004
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592D
Vishay Sprague
TYPICAL CURVES @ + 25°C, IMPEDANCE AND ESR VS FREQUENCY
"R" Case
"S" Case
100
10
100
10
IMPEDANCE
ESR
IMPEDANCE
ESR
33 - 6.3V
1
1
10µF, 25 V
0.1
0.1
100µF, 6.3 V
1K
0.01
100
0.01
100
10K
100K
1M
1000
10000
100000
1000000
FREQUENCY IN HERTZ
FREQUENCY IN HERTZ
592D 1500-4V X CASE ESR/IMPEDANCE VS FREQUENCY
592D 1500-6.3V Y CASE ESR/IMPEDANCE VS FREQUENCY
10
10.00
ESR
ESR
IMPEDANCE
IMPEDANCE
1
1.00
0.10
0.01
0.1
0.01
100
1kHz
10kHz
100kHz
1MHz
10MHz
100
1kHz
10kHz
100kHz
1MHz
10MHz
FREQUENCY (Hz)
FREQUENCY (Hz)
592D 1000-6.3V X CASE ESR/IMPEDANCE VS FREQUENCY
592D 2200-4V Y CASE ESR/IMPEDANCE VS FREQUENCY
10.00
1.00
0.10
0.01
10.00
1.00
0.10
0.01
ESR
ESR
IMPEDANCE
IMPEDANCE
100
1kHz
10kHz
100kHz
1MHz
10MHz
100
1kHz
10kHz
100kHz
1MHz
10MHz
FREQUENCY (Hz)
FREQUENCY (Hz)
For technical questions, contact tantalum@vishay.com
Document Number 40004
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592D
Vishay Sprague
PERFORMANCE CHARACTERISTICS
1.
Operating Temperature: Capacitors are designed to
operate over the temperature range - 55°C to + 85°C.
- 55°C
- 10%
+ 85°C
+ 10%
+ 125°C
+ 12%
1.1
Capacitors may be operated to + 125°C with
voltage derating to two-thirds the + 85°C rating.
6.
Dissipation Factor: The dissipation factor,
determined from the expression 2πfRC, shall not
exceed values listed in the Standard Ratings Table.
+ 85°C Rating
+ 125°C Rating
Working
Voltage
(V)
Surge
Voltage
(V)
Working
Voltage
(V)
Surge
Voltage
(V)
6.1
7.
Measurements shall be made by the bridge method
at, or referred to, a frequency of 120 Hz and a
temperature of + 25°C.
4
5.2
8
2.7
4
7
10
13
17
23
3.4
5
8
12
16
20
28
6.3
10
16
20
25
35
13
20
26
32
46
Leakage Current: Capacitors shall be stabilized at
the rated temperature for 30 minutes. Rated voltage
shall be applied to capacitors for 5 minutes using a
steady source of power (such as a regulated power
supply) with 1000 ohm resistor connected in series
with the capacitor under test to limit the charging
current. Leakage current shall then be measured.
2.
3.
DC Working Voltage: The DC working voltage is the
maximum operating voltage for continuous duty at the
rated temperature.
Note that the leakage current varies with temperature
and applied voltage. See graph below for the
appropriate adjustment factor.
Surge Voltage: The surge DC rating is the maximum
voltage to which the capacitors may be subjected
under any conditions, including transients and peak
ripple at the highest line voltage. 592D228X_6R3X2T
and 592D338X_6R3V2T, not surge voltage tesed.
TYPICAL LEAKAGE CURRENT FACTOR RANGE
3.1
3.2
Surge Voltage Test: Capacitors shall withstand
the surge voltage applied in series with a 33 ohm
± 5% resistor at the rate of one-half minute on,
one-half minute off, at + 85°C, for 1000 successive
test cycles.
100
+ 125°C
+ 85°C
10
Following the surge voltage test, the dissipation
factor and the leakage current shall meet the initial
requirements;thecapacitanceshallnothavechanged
more than ± 10%.
+ 55°C
+ 25°C
1.0
4.
Capacitance Tolerance: The capacitance of all
capacitors shall be within the specified tolerance
limits of the normal rating.
0°C
4.1
Capacitance measurements shall be made by means
of polarized capacitance bridge. The polarizing
voltage shall be of such magnitude that there shall be
no reversal of polarity due to the AC component. The
maximum voltage applied to capacitors during
measurement shall be 2 volts rms at 120 Hz at +25°C.
If the AC voltage applied is less than one-half volt rms,
no DC bias is required. Accuracy of the bridge shall
be within ± 2%.
0.1
- 55°C
0.01
5.
Capacitance Change With Temperature: The
capacitancechangewithtemperatureshallnotexceed
thefollowingpercentageofthecapacitancemeasured
at + 25°C:
0.001
0
10 20
30 40
50 60 70 80
90 100
Percent of Rated Voltage
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Document Number 40004
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592D
Vishay Sprague
PERFORMANCE CHARACTERISTICS (Continued)
12.
Resistance to Soldering Heat: Capacitors mounted
on a substrate will withstand + 260°C for 5 seconds.
7.1
7.2
7.3
8.
At + 25°C, the leakage current shall not exceed
the value listed in the Standard Ratings Table.
At + 85°C, the leakage current shall not exceed 10
times the value listed in the Standard Ratings Table.
12.1 Following the resistance to soldering heat test,
capacitance, dissipation factor and DC leakage
current shall meet the initial requirement.
At + 125°C, the leakage current shall not exceed 12
times the value listed in the Standard Ratings Table.
13.
Marking: The small body area of these capacitors
does not allow elaborate marking schemes. All
required information is present on the carton or
package in which the parts are shipped; in addition,
part number, quantity and data code are indicated on
the reels.
Equivalent Series Resistance: Measurements shall
be made by the bridge method at, or referred to, a
frequency of 100 KHz and a temperature of + 25°C.
8.1
9.
TheEquivalentSeriesResistanceshallnotexceedthe
value listed in the Standard Ratings Table.
14.
15.
Terminal Strength: Per IEC-384-3, minimum of
5N shear force.
Life Test: Capacitors shall withstand rated DC
voltage applied at + 85°C for 2000 hours or derated
DC voltage applied at + 125°C for 1000 hours.
Environmental: Mercury, CFC and ODS materials
are not used in the manufacture of these capacitors.
9.1
10
Following the life test, the dissipation factor and
leakage shall meet the initial requirement; the
capacitance change shall not exceed ± 10% of the
initial value.
16.
17.
Flammability: Encapsulant materials meet UL94 V0
Capacitor Failure Mode: The predominant failure
mode for solid tantalum capacitors is increased
leakage current resulting in a shorted circuit. Capaci-
tor failure may result from excess forward or reverse
DC voltage, surge current, ripple current, thermal
shock or excessive temperature.
HumidityTest:Capacitorsshallwithstand1000hours
at + 40°C, 90% to 95% relative humidity, with no
voltage applied
10.1 Following the humidity test, capacitance change shall
not exceed ± 10% of the initial value, dissipation factor
shall not exceed 150% of the initial requirement;
leakage currrent shall not exceed 200% of the initial
requirement at + 25°C
The increase in leakage is caused by a breakdown of
the Ta2O5 dielectric. For additional information on
leakage failure of solid tantalum chip capacitors, refer
to Vishay Sprague Technical Paper, “Leakage Failure
Mode in Solid Tantalum Chip Capacitors.”
11.
Solderability: Capacitors will meet the solderability
requirements of ANSI/J-STD-002, test B category 1.
GUIDE TO APPLICATION
1.0
Recommended rated working voltage guidelines:
(-55°C to + 85°C)
RESR = The capacitor Equivalent Series Resistance
at the specified frequency.
Application Voltage
(V)
Recommended
Capacitor Voltage
Rating (V)
3.
A-C Ripple Voltage: The maximum allowable ripple
voltage shall be determined from the formula:
2.5
4
5
4
6.3
8
10
16
20
25
35
P
Vrms = Z
RESR
6
10
12
18
24
or, from the formula:
Vrms = Irms x Z
where,
2.
A-C Ripple Current: The maximum allowable ripple
current shall be determined from the formula:
P = Power Dissipation in Watts @ + 25°C as given in
the table in Paragraph Number 6.0 (Power
Dissipation).
P
RESR = The capacitor Equivalent Series Resistance
RESR
Irms
=
at the specified frequency.
where,
Z = The capacitor impedance at the specified
frequency.
P = Power Dissipation in Watts @ + 25°C as given
in the table in Paragraph Number 6.0 (Power Dissipation)
For technical questions, contact tantalum@vishay.com
Document Number 40004
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81
592D
Vishay Sprague
GUIDE TO APPLICATION (Continued)
The Soldering Profile chart shows typical recomended
time/temperature conditions for soldering. Attachment
with a soldering iron is not recommended due to the
difficulty of controlling temperature and time at
temperature. The soldering iron must never come in
contact with the capacitor.
3.1
3.2
4.0
The sum of the peak AC voltage plus the applied DC
voltage shall not exceed the DC voltage rating of the
capacitor.
The sum of the negative peak AC voltage plus the
applied DC voltage shall not allow a voltage reversal
exceeding 10% of the DC working voltage at + 25°C.
RECOMMENDED REFLOW SOLDERING PROFILE
Reverse Voltage: These capacitors are capable of
withstanding peak voltages in the reverse direction
equal to 10% of the DC rating or 1 volt maximum at
+25°C and 5% of the DC voltage rating or 0.5 volt
maximum at + 85°C.
250
200
150
100
50
5.0
Temperature Derating: If these capacitors are to be
operated at temperatures above + 25°C, the
permissible rms ripple current or voltage shall be
calculated using the derating factors as shown:
0
50
100
150
200
250
300
350
Temperature
+ 25°C
+ 85°C
+ 125°C
Derating Factor
TIME (SECONDS)
1.0
0.9
0.4
9.0 Recommended Mounting Pad Geometries: The
nib must have sufficient clearance to avoid electrical
contact with other components. The width dimension
indicated is the same as the maximum width of the
capacitor. This is to minimize lateral movement.
6.0
Power Dissipation: Power dissipation will be
affected by the heat sinking capability of the mounting
surface. Non-sinusoidal ripple current may produce
heating effects which differ from those shown. It is
important that the equivalent Irms value be
established when calculating permissible operating
levels. (Power dissipation calculated using + 25°C
temperature rise.)
REFLOW SOLDER PADS*
in inches [millimeters]
B
C
Maximum Permissible
Power Dissipation
@ + 25°C (Watts) in free air
B
Case Code
A
A
B
C
D
R
S
T
U
V
W
X
Y
CASE
CODE
A
WIDTH
(A)
0.082
[2.1]
0.120
[3.5]
0.130
[3.5]
0.180
[4.6)
2.45
[8.3]
0.067
[1.7]
0.120
[3.5]
0.136
[3.5]
0.180
[4.6)
0.245
[8.3]
0.310
[7.9]
PAD
METALIZATION
0.085
[1.7]
SEPARATION
(C)
0.060
0.080
0.100
0.125
0.150
0.060
0.080
0.110
0.140
0.175
0.175
0.180
0.050
[1.3]
0.065
[1.7]
0.120
[3.1]
0.145
[3.7]
0.145
[3.7]
0.043
[1.1]
0.065
[1.7]
0.120
[3.1]
0.145
[3.7]
0.145
[3.7]
0.360
[9.2]
0.360
[9.2]
B
C
D
R
S
T
0.065
[1.7]
0.080
[2.3]
0.080
[2.3]
0.090
[2.3]
0.032
[0.8]
0.065
[1.7]
0.090
[2.3]
0.090
[2.3]
7.0
Printed Circuit Board Materials: The capacitors are
compatible with most commonly used printed circuit
board materials (alumina substrates, FR4, FR5,
G10, PTFE-fluorocarbon and porcelanized steel). If
your desired board material is not shown there please
contact the Tantalum Marketing Department for
assistance in determining compatibility.
U
V
W
X
Y
0.090
[2.3]
0.120
[3.0]
0.120
[3.0]
8.
Attachment:
0.310
[7.9]
8.1
Solder Paste: The recommended thickness of the
solder paste after application is 0.007" ± .001"
[.178mm ± .025mm]. Care should be exercised in
selecting the solder paste. The metal purity should
be as high as practical. The flux (in the paste) must
be active enough to remove the oxides formed on the
metallization prior to the exposure to soldering heat.
* Pads for B, C and D case codes are otherwise pad compatible with
* Type 293D, B, C and D case codes respectively.
10.0 Cleaning (Flux Removal) After Soldering: The
592D capacitors are compatible with all commonly
used solvents such as TES, TMS, Prelete, Chlorethane,
Terpene and aqueous cleaning media. Solvents
containing methylene chloride or other epoxy solvents
should be avoided since these will attack the epoxy
encapsulation material.
8.2 Soldering: Capacitors can be attached by
conventional soldering techniques - convection,
infrared reflow, wave soldering and hot plate methods.
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Document Number 40004
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592D
Vishay Sprague
TAPE AND REEL PACKAGING in inches [millimeters]
Top
Cover
Tape
Thickness
Standard orientation is with the
cathode (-) nearest to the
sprocket holes per EIA-481-1
and IEC 286-3.
Carrier
Embossment
R
Min.
Bending Radius
(Note 2)
Units Per Reel
Tape
Width
Component
7" [178]
Reel
13" [330]
Reel
Case Code
Pitch
A
B
C
D
R
S
T
8mm
12mm
12mm
12mm
12mm
8mm
4mm
4mm
8mm
8mm
8mm
4mm
8mm
8mm
8mm
8mm
12mm
12mm
2500
2000
1000
1000
1000
2500
2000
1000
1000
1000
500
10000
8000
4000
4000
4000
10000
8000
4000
4000
2500
12mm
12mm
12mm
12mm
24mm
24mm
U
V
W
X
Y
500
For technical questions, contact tantalum@vishay.com
Document Number 40004
Revision 03-Dec-04
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83
592D
Vishay Sprague
TAPE AND REEL PACKAGING in inches [millimeters]
Note: Metric dimensions will govern. Dimensions in inches are rounded and for reference only.
.157 ± .004
[4.0 ± 0.10]
T2
Max.
10 Pitches Cumulative
Tolerance on Tape
± 0.008 [0.200]
Deformation
Between
Embossments
.059 + .004 - 0.0
[1.5 + 0.10 - 0.0]
Embossment
.024
[0.600]
Max.
.069 ± .004
[1.75 ± 0.10]
.079 ± .002
[2.0 ± 0.05]
Top
Cover
Tape
20°
A0
.030 [0.75]
Min. (Note 3)
F
W
Maximum
Component
Rotation
B1 Max.
(Note 6)
B0
K0
.030 [0.75]
Min. (Note 4)
Top
Cover
Tape
(Side or Front Sectional View)
P1
Center Lines
of Cavity
For Tape Feeder
Reference only
including draft.
Concentric around B0
(Note 5)
D1 Min. For Components
.079 x .047 [2.0 x 1.2] and Larger.
.004 [0.10]
Max.
USER DIRECTION OF FEED
(Note 5)
Maximum
Cavity Size
(Note 1)
Cathode (-)
Anode (+)
DIRECTION OF FEED
20° Maximum
3.937 [100.0]
Tape and Reel Specifications: All case sizes are available
on plastic embossed tape per EIA-481-1. Tape reeling per
IEC 286-3 is also available. Standard reel diameter is 7"
[178mm]. 13" [330mm] reels are available and recommended
as the most cost effective packaging method.
Component Rotation
.039 [1.0]
Max.
Typical
Component
Cavity
Tape
B0
Center Line
.039 [1.0] Max.
The most efficient packaging quantities are full reel increments
on a given reel diameter. The quantities shown allow for the
sealed empty pockets required to be in conformance with
EIA-481-1. Reel size and packaging orientation must be
specified in the Vishay Sprague part number.
Typical
Component
Center Line
9.843 [250.0]
Camber
(Top View)
Allowable Camber to be .039/3.937 [1/100]
Non-Cumulative Over 9.843 [250.0]
A0
(Top View)
TAPE
SIZE
8mm
B1 (Max.)
(Note 6)
0.179
[4.55]
0.323
[8.2]
0.323
[8.2]
D1 (Min.)
R (Min.)
(Note 2)
0.984
[25.0]
1.181
[30.0]
1.181
[30.0]
1.181
[30.0]
T2
(Max.)
0.098
[2.5]
0.256
[6.5]
0.256
[6.5]
0.103
[2.6]
A0 B0 K0
(Note 5)
0.039
[1.0]
0.059
[1.5]
0.059
[1.5]
0.059
[1.5]
F
P1
W
0.315 + .012 - .004
[8.0 + 0.3 - 0.1]
0.472 ± 0.012
[12.0 ± 0.30]
0.472 ± 0.012
[12.0 ± 0.30]
0.945 ± 0.012
[24.0 ± 0.03]
0.138 ± 0.002
[3.5 ± 0.05]
0.217 ± 0.002
[5.5 ± 0.05]
0.217 ± 0.002
[5.5 ± 0.05]
0.453 ± 0.04
[11.5 ± 0.03]
0.157 ± 0.004
[4.0 ± 0.10]
0.157 ± 0.004
[4.0 ± 0.10]
0.315 ± 0.004
[8.0 ± 0.10]
0.472 ± 0.004
[12.0 ± 0.10]
(Note 1)
12mm
12mm
Double Pitch
24mm
0.791
[20.1]
Notes:
1. A0B0K are determined by the maximum dimensions to the ends of the terminals extending from the component body and/or the body
dimen0sions of the component. The clearance between the ends of the terminals or body of the component to the sides and depth of the
cavity (A0B0K0) must be within .002" [0.05mm] minimum and .020" [0.50mm] maximum. The clearance allowed must also prevent
rotation of the component within the cavity of not more than 20 degrees.
2. Tape with components shall pass around radius "R" without damage. The minimum trailer length may require additional length to
provide R minimum for 12mm embossed tape for reels with hub diameters approaching N minimum.
3. This dimension is the flat area from the edge of the sprocket hole to either the outward deformation of the carrier tape between the
embossed cavities or to the edge of the cavity whichever is less.
4. This dimension is the flat area from the edge of the carrier tape opposite the sprocket holes to either the outward deformation of the
carrier tape between the embossed cavity or to the edge of the cavity whichever is less.
5. The embossment hole location shall be measured from the sprocket hole controlling the location of the embossment. Dimensions of
embossment location and hole location shall be applied independent of each other.
6. B1 dimension is a reference dimension for tape feeder clearance only.
www.vishay.com
84
Document Number 40004
Revision 03-Dec-04
For technical questions, contact tantalum@vishay.com
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