DE0807SL680J3K [MURATA]
CAPACITOR, CERAMIC, 3150V, SL, 0.000068uF, THROUGH HOLE MOUNT, RADIAL LEADED;
| 型号: | DE0807SL680J3K |
| 厂家: | 
muRata |
| 描述: | CAPACITOR, CERAMIC, 3150V, SL, 0.000068uF, THROUGH HOLE MOUNT, RADIAL LEADED |
| 文件: | 总7页 (文件大小:171K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
LEADED CAPACITORS, NETWORKS & HV CAPACITORS
MEDIUM VOLTAGE CAPACITORS
1kV to 6kVDC E.I.A. CLASS II & III
DE Se rie s
DIMENSIONS: mm
Vertical Crimp:
Non-Vertical Crimp:
1kV 4.0, 2kV 5.0,
DE0507/DE0607 type
and rated voltage
6.3kV type
3kV 6.0,
6kV 7.0
D max.
3.0 max.
–1 Lead Code
25.0 min.
Tinned
copper wire
DE04-05–#24
DE06-16–#22
ꢀd
5 ± 1.0
L.S.
PART NUMBERING SYSTEM
TYPE
DE04
LEADS
05
TEMP. CHAR.
B
CAPACITANCE
101
TOL.
K
VOLTAGE
1K
–
ꢀ
CAPACITOR LEAD SPACING
LEAD/
TEMPERATURE CHARACTERISTICS
Class I: Per standard EIA specifications.
Class II & III:
TEMPERATURE RANGE: –25°C to +85°C
MAX. CAP. CHANGE OVER TEMP. RANGE:
B = ±10%
CAPACITANCE
VALUE
3-digit code
CAPACITANCE
TOLERANCE
J = ±5%
K = ±10%
Z = +80, –20%
VOLTAGE
Identified by a
one-digit number
TYPE AND
SIZE
05 = 5
07 = 7.5
10 = 10
TAPING
CODE
See
following
page
E = +20, –55%
F = +30, –80%
TYPICAL TEMPERATURE CHARACTERISTICS
MARKING*
DE04, 05, 06
DE07, 08, 09
60
40
20
101
2KV
681K
3KV
B
0
B
–20
DE10 & Larger
E
B
472K
1KV
–40
E
00
–60
00:Date
Code
F
F
–80
–40
–20
0
20
40
60
80
100
120
Temp. °C
*Three-digit capacitance code for values of 100pF and larger.
SL and F have no temperature characteristic marking.
80
CG01-J
LEADED CAPACITORS, NETWORKS & HV CAPACITORS
MEDIUM VOLTAGE CAPACITORS
1kV to 6kVDC E.I.A. CLASS II & III
DE Se rie s
B CHARACTERISTIC (Similar to EIA Temperature Characteristic Y5P)
ꢀ: Lead Configuration/Lead Code
Double
Straight
Long
Straight
Short
Taping*†
Crimp
Part Number
(ꢀ: optional lead
code shown
Max.
Body
Nominal
Capacitance
(pF)
Lead
Rated
Voltage
(kVDC)
Spacing
F (mm)
Diameter
D (mm)
Lead Spacing
F: 5.0
Pitch of
Component
P: 12.7
Lead Spacing
F: 7.5
Lead Spacing
F: 7.5
at the right)
Pitch of
Pitch of
Component
P: 15.0
Component
P: 30.0
DE0405ꢀB101K1K
DE0405ꢀB151K1K
DE0405ꢀB221K1K
DE0405ꢀB331K1K
DE0505ꢀB471K1K
DE0605ꢀB681K1K
DE0605ꢀB102K1K
DE0805ꢀB152K1K
DE0905ꢀB222K1K
DE1005ꢀB332K1K
DE1207ꢀB472K1K
DE1507ꢀB682K1K
DE0405ꢀB101K2K
DE0405ꢀB151K2K
DE0405ꢀB221K2K
DE0505ꢀB331K2K
DE0605ꢀB471K2K
DE0705ꢀB681K2K
DE0805ꢀB102K2K
DE0905ꢀB152K2K
DE1005ꢀB222K2K
DE1207ꢀB332K2K
DE1507ꢀB472K2K
DE0507ꢀB101K3K
DE0507ꢀB151K3K
DE0507ꢀB221K3K
DE0607ꢀB331K3K
DE0707ꢀB471K3K
DE0807ꢀB681K3K
DE0907ꢀB102K3K
DE1107ꢀB152K3K
DE1307ꢀB222K3K
DE1507ꢀB332K3K
DE0910ꢀB101K6K
DE0910ꢀB151K6K
DE0910ꢀB221K6K
DE0910ꢀB331K6K
DE1010ꢀB471K6K
DE1110ꢀB681K6K
100
150
220
330
470
4.5
5
6
5.0
–979
—
680
–69
—
1
1000
1500
2200
3300
4700
6800
100
150
220
330
470
8
9
10
12
15
–486
—
7.5
5.0
7.5
—
–610
—
–477
—
4.5
5
6
7
8
9
10
12
15
No Code
–1
–979
680
2
1000
1500
2200
3300
4700
100
150
220
330
470
–486
—
–610
–620
–477
—
5
6
7
8
–486
7.5
3.15
680
1000
1500
2200
3300
100
150
220
330
470
9
11
13
15
—
–610
—
–477
—
9
No Code
Bulk Only
—
10.0
6.3
—
10
11
13
680
DE1310ꢀB102K6K
1000
*900 pcs. for KH type
E CHARACTERISTIC (Similar to EIA Temperature Characteristic Y5U)
DE0505ꢀE102Z1K
DE0705ꢀE222Z1K
DE0905ꢀE472Z1K
DE1307ꢀE103Z1K
DE0605ꢀE102Z2K
DE0805ꢀE222Z2K
DE1105ꢀE472Z2K
DE1607ꢀE103Z2K
DE0707ꢀE102Z3K
DE1007ꢀE222Z3K
DE1307ꢀE472Z3K
DE1110ꢀE102Z6K
DE1510ꢀE222Z6K
1000
2200
4700
10000
1000
2200
4700
10000
1000
2200
4700
1000
2200
5
7
9
13
6
8
11
16
7
10
13
11
15
5.0
7.5
5.0
7.5
7.5
–69
–620
—
–979
—
—
1
–486
—
No Code
–1
–979
2
—
–610
–620
–477
—
3.15
6.3
–486
—
—
10.0
Bulk Only
—
—
F CHARACTERISTIC (Similar to EIA Temperature Characteristic Y5V)
ꢀ: Lead Configuration/Lead Code
Straight Long
Straight Short
Double Crimp
Taping*†
Part Number
(ꢀ: optional lead
code shown
Max.
Body
Diameter
D (mm)
Nominal
Capacitance
(pF)
Lead
Spacing
F (mm)
Rated
Voltage
(kVDC)
Lead Spacing
F: 5.0
Lead Spacing
F: 7.5
at the right)
Pitch of
Pitch of
Component
P: 12.7
Component
P: 15.0
DE0605ꢀF222Z1K
DE0705ꢀF472Z1K
DE1005ꢀF103Z1K
DE0505ꢀF102Z2K
DE0705ꢀF222Z2K
DE0905ꢀF472Z2K
DE1207ꢀF103Z2K
2200
4700
10000
1000
2200
4700
6
7
10
5
7
9
5.0
1
2
–69
—
–979
—
—
No Code
–1
5.0
7.5
10000
12
–486
All “No Code” bulk versions standard through authorized Murata Electronics Distributors. †See page 96 for specifications.
*900 pcs. for KH type
CG01-J
81
LEADED CAPACITORS, NETWORKS & HV CAPACITORS
MEDIUM VOLTAGE CAPACITORS
1kV to 6kVDC E.I.A.CLASS II& III–SPECIFICATIONS & TEST METHODS DE Se rie s
Specification
Item
Test Method
Temperature Compensating
High Dielectric Constant
1
2
Operating Temperature Range –25 to +85°C
–25 to +85°C
Within the specified
tolerance.
—
Capacitance
Within the specified tolerance.
The capacitance shall be measured at 20°C with 1 ± 0.2kHz
(SL: 1 ± 0.2MHz) and 5V(r.m.s.) max.
3
Q
Same condition as capacitance.
B, E
F
D.F. ≤ 2.5%
D.F. ≤ 5.0%
C ≥ 30pF: Q ≥ 1000
C < 30pF: Q ≥ 400 + 20C
SL
Dissipation Factor (D.F.)
1
4
5
Insulation
Resistance (I.R.) lead wires
Dielectric
Strength
Between
10000M ohms min.
No failure.
10000M ohms min.
The insulation resistance shall be measured with 500 ± 50VDC within
60 ± 5 sec. of charging.
The capacitors shall not be damaged when DC voltage of 200% of the
rated voltage is applied between the lead wires for 1 to 5 sec.
(Charge/discharge current ≤50mA)
Between
lead wires
No failure.
Body
Insulation
No failure.
No failure.
The capacitor is placed in the container with metal
balls of diameter 1mm so that each lead wire, short-
Approx. 2mm
circuited, is kept approximately 2mm off the balls as
shown in the figure, and DC voltage of 1.3kV is
applied for 1 to 5 sec. between capacitor lead wires
and small metals. (Charge/discharge current ≤50mA).
Metal balls
6
Temperature Characteristic
The capacitance measurement shall be made at each step specified in
table. Capacitance change from the value of step 3 shall not exceed the
limit specified.
T.C.
Temp. Coefficient
T.C.
B
E
Cap. Change
SL +350 to –1000ppm/°C
within ±10%
+20
within
within
%
%
–55
Char. Step
SL
1
—
2
—
3
4
5
+30
–80
F
20 ± 2°C 85 ± 2°C 20 ± 2°C
B, E, F
20 ± 2°C –25 ± 3°C 20 ± 2°C 85 ± 2°C 20 ± 2°C
Pre-treatment
Capacitor shall be stored at 85 ± 2°C for 1 hour, then placed at room
condition2 for 24 ± 2 hours before initial measurements (B, E, F).
7
8
Vibration
Resistance
Appearance No marked defect.
Capacitance Within the specified tolerance.
Change
No marked defect.
Within the specified
tolerance.
The capacitor shall firmly be soldered to the supporting lead wire and
vibration which is 10 to 55Hz in the vibration frequency range, 1.5mm
in total amplitude, and about 1 minute in the rate of vibration change
from 10Hz to 55Hz and back to 10Hz is applied for a total of 6 hours;
2 hours each in 3 mutually perpendicular directions.
Q.
D.F.
B, E
F
D.F. ≤ 2.5%
D.F. ≤ 5.0%
C ≥ 30pF: Q ≥ 1000
C < 30pF: Q ≥ 400 + 20C
SL
1
Soldering
Effect
Appearance No marked defect.
No marked defect.
The lead wire shall be immersed into the melted solder of 350 ± 10°C
(body of ꢀ5 and under: 270 ± 5°C) up to about 1.5 to 2mm from the
main body for 3.5 ± 0.5 sec. (body of ꢀ5 and under: 5 ± 0.5 sec.).
Pre-treatment
Capacitance
Change
B
E
F
within ±5%
within ±15%
within ±20%
SL
within ±2.5%
Capacitor shall be stored at 85 ± 2°C for 1 hour, then placed at room
condition2 for 24 ± 2 hours before initial measurements (B, E, F).
Post-treatment
Dielectric
Strength
Pass the item No. 5.
Pass the item No. 5.
Capacitor shall be stored for 1 to 2 hours at room condition2 (SL).
(between
lead wires)
Appearance No marked defect.
Capacitor shall be stored for 24 ± 2 hours at room condition2 (B, E, F).
9
Humidity
(Under
Steady State)
No marked defect.
Set the capacitor for 500 +2–40 hours at 40 ± 2°C in 90 to 95% humidity.
Pre-treatment
Capacitance
Change
B
E
F
within ±10%
within ±20%
within ±30%
SL
within ±5%
Capacitor shall be stored at 85 ± 2°C for 1 hour, then placed at room
condition2 for 24 ± 2 hours before initial measurements (B, E, F).
Post-treatment
Capacitor shall be stored for 1 to 2 hours at room condition2.
Q.
D.F.
B, E
F
D.F. ≤ 5.0%
D.F. ≤ 7.5%
C ≥ 30pF: Q ≥ 350
SL
1
C < 30pF: Q ≥ 275 + 5/
2C
I.R.
1000M ohms min.
1000M ohms min.
No marked defect.
10 Humidity
Loading
Appearance No marked defect.
Capacitance
Change
Apply the rated voltage for 500 +2–40 hours at 40 ± 2°C in 90 to 95%
humidity. (Charge/discharge current ≤50mA).
Pre-treatment
B
E
F
within ±10%
within ±20%
within ±30%
SL
within ±7.5%
Capacitor shall be stored at 85 ± 2°C for 1 hour, then placed at room
condition2 for 24 ± 2 hours before initial measurements (B, E, F).
Post-treatment
Q.
D.F.
B, E
F
D.F. ≤ 5.0%
D.F. ≤ 7.5%
C ≥ 30pF: Q ≥ 200
Capacitor shall be stored for 1 to 2 hours at room condition2 (SL).
Capacitor shall be stored at 85 ± 2°C for 1 hour, then placed at room
condition2 for 24 ± 2 hours (B, E, F).
SL
1
C < 30pF: Q ≥ 100+ 10
/3C
I.R.
500M ohms min.
500M ohms min.
No marked defect.
+48
11 Life
Appearance No marked defect.
Capacitance
Change
Apply a DC voltage of 150% of the rated voltage for 1000
85 ± 2°C. (Charge/discharge current ≤50mA).
Pre-treatment
hours at
–0
B
E
F
within ±10%
within ±20%
within ±30%
SL
within ±3%
Capacitor shall be stored at 85 ± 2°C for 1 hour, then placed at room
condition2 for 24 ± 2 hours before initial measurements (B, E, F).
Post-treatment
Q.
D.F.
B, E
F
D.F. ≤ 4.0%
D.F. ≤ 7.5%
C ≥ 30pF: Q ≥ 350
Capacitor shall be stored for 1 to 2 hours at room condition2 (SL).
Capacitor shall be stored at 85 ± 2°C for 1 hour, then placed at room
condition2 for 24 ± 2 hours (B, E, F).
SL
1
C < 30pF: Q ≥ 275 + 5/
2C
I.R.
Pull
2000M ohms min.
Lead wire shall not cut off.
Capacitor shall not be broken.
2000M ohms min.
12 Strength of
Lead
As in figure, fix the body of capacitor, apply a tensile weight
gradually to each lead wire in the radial direction of capacitor
up to 10N (1.0kgf) 5N (0.51kgf) for lead diameter ꢀ0.5, and
keep it for 10 ± 1 sec.
W
Each lead wire shall be subjected to 5N (0.51kgf) 2.5N (0.25kgf) for lead
diameter ꢀ0.5 weight and then a 90° bend, at the point of egress, in one
direction, return to original position, and then a 90° bend in the opposite
direction at the rate of one bend in 2 to 3 seconds.
Bending
13 Solderability of Leads
Lead wire shall be soldered with uniform coating on the axial
direction over 3/
of the circumferential direction.
The lead wire of a capacitor shall be dipped into a methanol solution of
25wt% rosin and then into molten solder of 235 ± 5°C for 2 ± 0.5
seconds. In both cases the depth of dipping is up to about 1.5 to 2mm
from the root of lead wires.
4
1“C” expresses nominal capacitance value (pF). 2“room condition” temperature: 15 to 35°C; humidity: 45 to 75%; atmospheric pressure: 860 to 1060hPa.
82
CG01-J
LEADED CAPACITORS, NETWORKS & HV CAPACITORS
HIGH TEMPERATURE CAPACITORS
250V to 3kVDC E.I.A. CLASS I & II
DE Se rie s
DIMENSIONS: mm
Vertical Crimp:
Non-Vertical Crimp:
1kV 4.0, 2kV 5.0,
In case of Murata type:
DE0507, DE0607 and rated
voltage 6.3kV
3kV 6.0,
6kV 7.0
D max.
3.0 max.
–1 Lead Code
25.0 min.
Tinned
copper wire
DE04-05–#24
DE06-16–#22
ꢀd
5 ± 1.0
L.S.
PART NUMBERING SYSTEM
TYPE
DE04
LEADS
05
TEMP. CHAR.
SL
CAPACITANCE
120
TOL.
J
VOLTAGE
–
ꢀ
1K
CAPACITOR LEAD SPACING LEAD/
TEMPERATURE
CAPACITANCE VALUE
CAPACITANCE
VOLTAGE
TYPE AND
SIZE
05 = 5
TAPING CODE CHARACTERISTICS
Expressed in picofarads and TOLERANCE
Identified by a
one, two or three
07 = 7.5
10 = 10
See following
pages
–25°C to +125°C
identified by a three-digit
number. First two digits
D = ±0.5pF
J = ±5% (SL only) digit number.
MAX. CAP. CHANGE
OVER TEMP. RANGE
SL = +350–1000ppm/°C
represent significant figures. K = ±10%
Last digit specifies the number
of zeros to follow.
–25°C to +85°C
±15%
+85°C to +125°C
+15, –30%
+15, –30%
R =
C =
±20%
TYPICAL TEMPERATURE VS.
CAPACITANCE CHANGE
MARKING*
+15
DE04, 05, 06
DE07, 08, 09
SL
C
R
HR R
102K
1KV
HR
102
0
DE10 & Larger
HRSL
221J
–15
–30
2KV
00
00: Date
Code
–40
–20
0
20
40
60
80
100
120
*Working Voltage not marked for 500V. Three-digit capacitance
code for values 100pF and higher.
Temperature (°C)
TYPICAL AC/DC BREAKDOWN VOLTAGE
DE1007 SL 121J 3K
DE1005 SL 221J 2K
DE1005 SL 331J 1K
DE1910 R 272K 3K
DE2110 R 472K 2K
DE1707 R 472K 1K
DE51-4 C 472K 500
DE512 R 103K 250
1
2
3
4
5
6
7
8
9
10
11 12
Breakdown Voltage (kV)
: DC Breakdown Voltage
: AC Breakdown Voltage
CG01-J
83
LEADED CAPACITORS, NETWORKS & HV CAPACITORS
HIGH TEMPERATURE CAPACITORS
250V to 3kVDC E.I.A. CLASS I & II
DE Se rie s
SL CHARACTERISTIC
ꢀ: Lead Configuration/Lead Code
Straight
Long
Straight
Short
Double
Taping*†
Crimp
Part Number
(ꢀ: optional lead
code shown
Max.
Body
Diameter
D (mm)
Nominal
Capacitance
(pF)
Lead
Spacing
F (mm)
Rated
Voltage
(kVDC)
Lead Spacing
F: 5.0
Pitch of
Component
P: 12.7
Lead Spacing
F: 7.5
Lead Spacing
F: 7.5
at the right)
Pitch of
Pitch of
Component
P: 15.0
Component
P: 30.0
DE0405ꢀSL100D1K
DE0405ꢀSL120J1K
DE0405ꢀSL150J1K
DE0405ꢀSL180J1K
DE0405ꢀSL220J1K
DE0405ꢀSL270J1K
DE0405ꢀSL330J1K
DE0405ꢀSL390J1K
DE0405ꢀSL470J1K
DE0505ꢀSL560J1K
DE0505ꢀSL680J1K
DE0605ꢀSL820J1K
DE0605ꢀSL101J1K
DE0605ꢀSL121J1K
DE0705ꢀSL151J1K
DE0705ꢀSL181J1K
DE0805ꢀSL221J1K
DE0905ꢀSL271J1K
DE1005ꢀSL331J1K
DE1005ꢀSL391J1K
DE1105ꢀSL471J1K
DE1207ꢀSL561J1K
DE0405ꢀSL100D2K
DE0405ꢀSL120J2K
DE0405ꢀSL150J2K
DE0405ꢀSL180J2K
DE0405ꢀSL220J2K
DE0405ꢀSL270J2K
DE0405ꢀSL330J2K
DE0505ꢀSL390J2K
DE0605ꢀSL470J2K
DE0605ꢀSL560J2K
DE0605ꢀSL680J2K
DE0705ꢀSL820J2K
DE0705ꢀSL101J2K
DE0805ꢀSL121J2K
DE0805ꢀSL151J2K
DE0905ꢀSL181J2K
DE1005ꢀSL221J2K
DE1107ꢀSL271J2K
DE1207ꢀSL331J2K
DE1307ꢀSL391J2K
DE1407ꢀSL471J2K
DE1507ꢀSL561J2K
DE0507ꢀSL100D3K
DE0507ꢀSL120J3K
DE0507ꢀSL150J3K
DE0507ꢀSL180J3K
DE0507ꢀSL220J3K
DE0607ꢀSL270J3K
DE0607ꢀSL330J3K
DE0607ꢀSL390J3K
DE0707ꢀSL470J3K
DE0707ꢀSL560J3K
DE0807ꢀSL680J3K
DE0807ꢀSL820J3K
DE0907ꢀSL101J3K
DE1007ꢀSL121J3K
DE1107ꢀSL151J3K
DE1107ꢀSL181J3K
DE1207ꢀSL221J3K
DE1407ꢀSL271J3K
DE1507ꢀSL331J3K
DE1607ꢀSL391J3K
10
12
15
18
22
4.5
27
33
39
47
56
5
6
7
68
5.0
–69
–979
—
1
82
100
120
150
180
220
270
330
390
470
560
10
8
9
10
11
12
—
7.5
5.0
–620
—
–486
–1
12
15
18
4.5
22
27
33
39
5
6
47
–69
–979
—
56
68
No Code
2
82
7
8
100
120
150
180
220
270
330
390
470
560
10
9
10
11
12
13
14
15
–486
—
7.5
–620
–477
12
15
5
18
22
27
33
6
39
—
47
–486
—
7
8
56
7.5
3.15
—
—
68
82
100
120
150
180
220
270
330
390
9
10
11
12
14
15
16
—
–477
*900 pcs. for KH type
R CHARACTERISTIC (250V)
ꢀ: Lead Configuration/Lead Code
Straight Long
Straight Short
Double Crimp
Taping*†
Part Number
(ꢀ: optional lead
code shown
Max.
Body
Diameter
D (mm)
Nominal
Capacitance
(pF)
Lead
Spacing
F (mm)
Rated
Voltage
(VDC)
Lead Spacing
F: 5.0
at the right)
Pitch of Component
P: 12.7
DE506ꢀR221K250
DE506ꢀR331K250
DE506ꢀR471K250
DE506ꢀR681K250
DE506ꢀR102K250
DE507ꢀR152K250
DE508ꢀR222K250
DE509ꢀR332K250
DE510ꢀR472K250
DE512ꢀR682K250
DE512ꢀR103K250
220
330
470
6
680
1000
1500
2200
3300
4700
6800
10000
7
8
9
5.0
250
No Code
–1
–69
–979
10
12
All “No Code” bulk versions standard through authorized Murata Electronics Distributors.
†See page 96 for specifications. *900 pcs. for KH type
84
CG01-J
LEADED CAPACITORS, NETWORKS & HV CAPACITORS
HIGH TEMPERATURE CAPACITORS
250V to 3kVDC E.I.A. CLASS I & II
DE Se rie s
R CHARACTERISTIC (1 to 3.15kV)
ꢀ: Lead Configuration/Lead Code
Straight
Long
Straight
Short
Double
Crimp
Taping*†
Part Number
(ꢀ: optional lead
code shown
Max.
Body
Diameter
D (mm)
Nominal
Capacitance
(pF)
Lead
Spacing
F (mm)
Rated
Voltage
(kVDC)
Lead Spacing
F: 5.0
Lead Spacing
F: 7.5
Pitch of
Component
P: 15.0
Lead Spacing
F: 7.5
Pitch of
Component
P: 30.0
at the right)
Pitch of
Component
P: 12.7
DE0705ꢀR221K1K
DE0705ꢀR331K1K
DE0705ꢀR471K1K
220
330
470
680
1000
1500
2200
3300
4700
220
270
330
390
7
5.0
–69
–979
—
—
DE0805ꢀR681K1K
DE0905ꢀR102K1K
DE1105ꢀR152K1K
DE1310ꢀR222K1K
DE1510ꢀR332K1K
DE1710ꢀR472K1K
8
9
11
13
15
17
—
1
–486
—
10.0
–610
–477
DE0707ꢀR221K2K
7
8
9
DE0707ꢀR271K2K
DE0807ꢀR331K2K
DE0807ꢀR391K2K
–1
DE0907ꢀR471K2K
470
560
DE0907ꢀR561K2K
—
DE1007ꢀR681K2K
DE1107ꢀR821K2K
DE1207ꢀR102K2K
DE1207ꢀR122K2K
DE1207ꢀR152K2K
DE1407ꢀR182K2K
DE1507ꢀR222K2K
DE1707ꢀR272K2K
DE1910ꢀR332K2K
DE2010ꢀR392K2K
DE2110ꢀR472K2K
680
820
1000
1200
1500
1800
2200
2700
3300
3900
4700
10
11
7.5
–620
–810
–486
2
12
14
15
17
19
20
21
No Code
–477
10.0
—
—
DE0707ꢀR151K3K
DE0707ꢀR181K3K
DE0707ꢀR221K3K
DE0707ꢀR271K3K
150
180
220
270
330
390
470
560
680
820
1000
1200
1500
1800
2200
2700
7
—
DE0807ꢀR331K3K
DE0907ꢀR391K3K
8
9
–486
DE1007ꢀR471K3K
10
DE1007ꢀR561K3K
7.5
3.15
—
—
DE1107ꢀR681K3K
DE1207ꢀR821K3K
DE1307ꢀR102K3K
DE1407ꢀR122K3K
DE1507ꢀR152K3K
DE1607ꢀR182K3K
DE1707ꢀR222K3K
DE1910ꢀR272K3K
11
12
13
14
15
16
17
19
–477
—
—
10.0
*900 pcs. for KH type
C CHARACTERISTIC
ꢀ: Lead Configuration/Lead Code
Straight Long
Straight Short
Double Crimp
Taping*†
Part Number
Nominal
Max.
Body
Diameter
D (mm)
Lead
Spacing
F (mm)
Rated
Voltage
(VDC)
(ꢀ: optional lead
Capacitance
code shown
(pF)
Lead Spacing
F: 5.0
at the right)
Pitch of Component
P: 12.7
DE50-6ꢀC331K500
DE50-6ꢀC471K500
330
470
6
DE50-7ꢀC681K500
DE50-8ꢀC102K500
DE50-9ꢀC152K500
DE51-0ꢀC222K500
DE51-2ꢀC332K500
DE51-4ꢀC472K500
680
1000
1500
2200
3300
4700
7
8
9
10
12
14
5.0
–69
–979
500
No Code
–1
10.0
–610
—
†See page 96 for specifications.
*900 pcs. for KH type
CG01-J
85
LEADED CAPACITORS, NETWORKS & HV CAPACITORS
HIGH TEMPERATURE CAPACITORS
250Vto 3kVDC E.I.A.CLASS I& II–SPECIFICATIONS & TEST METHODS DE Se rie s
Item
Specification
Test Method
1
2
Operating Temperature Range –25 to +125°C
—
Capacitance
Within the specified tolerance.
The capacitance shall be measured at 20°C with 1 ± 0.2kHz
(SL: 1 ± 0.2MHz) and 5V(r.m.s.) max.
3
Q
C ≥ 30pF: Q ≥ 1000
C < 30pF: Q ≥ 400 + 20C (SL)
D.F. ≤ 0.4% (R [250V])
D.F. ≤ 0.2% (R [1 to 3.15kV])
D.F. ≤ 0.3% (C)
Same condition as capacitance.
1
Dissipation Factor (D.F.)
4
5
Insulation
Resistance (I.R.) lead wires
Dielectric
Strength
Between
10000M ohms min.
(SL, R [1 to 3.15kV], C)
No failure.
1000M ohms min.
(R [250V])
The insulation resistance shall be measured with 500 ± 50VDC
(R [250V]: 100 ± 15V) within 60 ± 5 sec. of charging.
Between
lead wires
The capacitors shall not be damaged when DC voltage of 200% of the rated
voltage (in case of rated voltage: 1 to 3.15kV) or DC voltage of 250% of the rated
voltage (in case of rated voltage: 250V, 500V) is applied between the lead wires
for 1 to 5 sec. (Charge/discharge current ≤50mA)
Body
Insulation
No failure.
The capacitor is placed in the container with metal balls of
diameter 1mm so that each lead wire, short-circuited, is kept
Approx. 2mm
approximately 2mm off the balls as shown in the figure, and
AC voltage of 1250V is applied for 1 to 5 sec. between
capacitor lead wires and small metals.
Metal balls
(Charge/discharge current ≤50mA)
6
7
Temperature Characteristic
The capacitance measurement shall be made at each step specified in table.
Capacitance change from the value of step 3 shall not exceed the limit specified.
Temp.
Cap. Change
T.C. Temp. Coefficient
SL +350 to –1000ppm/°C
Range
C
R
Char. Step
SL
1
—
2
—
3
4
5
–25 to
+85°C
+85 to
+125°C
within
±20%
within
±15%
20 ± 2°C 85 ±2°C/125 ± 2°C 20 ± 2°C
C, R
20 ± 2°C –25 ± 3°C 20 ± 2°C 85 ±2°C/125 ± 2°C 20 ± 2°C
+15
–30
within
%
Pre-treatment: Capacitor shall be stored at 125 ± 3°C for 1 hour, then placed at
room condition2 for 24 ± 2 hours before initial measurements (R, C).
Temperature
Cycling
Appearance No marked defect.
Capacitance Within ±5% (SL)
No marked defect.
Within ±10% (R, C)
The capacitor shall be introduced into the test chamber, and shall be exposed to
the temperature conditions of steps 1 to 4 as shown in table at 5 cycles.
Step Temp. (°C) Time (min.) Step Temp. (°C) Time (min.)
Change
1
2
–25 ± 3
room temp.
30 ± 3
3 max.
3
4
+125 ± 3
room temp.
30 ± 3
3 max.
Q
D.F.
C ≥ 30pF: Q ≥ 350
D.F. ≤ 0.4% (R, C)
1
C < 30pF: Q ≥ 275 + 5/
2C (SL)
Pre-treatment: Capacitor shall be stored at 125 ± 3°C for 1 hour, then placed at
room condition2 for 24 ± 2 hours before initial measurements (R, C).
Post-treatment: Capacitor shall be stored for 1 to 2 hours at room condition2
(SL). Capacitor shall be stored for 24 ± 2 hours at room condition2 (R, C).
Measurement Order: I.R., Dielectric Strength ꢀ Pre-treatment ꢀ Capacitance,
D.F. ꢀ Temp. Cycling test ꢀ Post-treatment ꢀ Capacitance, D.F., I.R., Dielectric
Strength (R [250V]).
I.R.
Dielectric
Strength
(between
lead wires)
1000M ohms min.
Pass the item No. 5.
8
9
Vibration
Resistance
Appearance No marked defect.
Capacitance Within the specified tolerance.
Change
The capacitor shall firmly be soldered to the supporting lead wire and vibration
which is 10 to 55Hz in the vibration frequency range, 1.5mm in total amplitude,
and about 1 minute in the rate of vibration change from 10Hz to 55Hz and back
to 10Hz is applied for a total of 6 hours; 2 hours each in 3 mutually
perpendicular directions.
Q.
D.F.
C ≥ 30pF: Q ≥ 1000
C < 30pF: Q ≥ 400 + 20C (SL)
D.F. ≤ 0.4% (R [250V])
D.F. ≤ 0.2% (R [1 to 3.15kV])
D.F. ≤ 0.3% (C)
1
Soldering
Effect
Appearance No marked defect.
Capacitance Within ±2.5% (SL)
Change
The lead wire shall be immersed into the melted solder of 350 ± 10°C up to
about 1.5 to 2mm from the main body for 3.5 ± 0.5 sec. and the specified items
shall be measured after leaving for 24 ± 2 hours.
Pre-treatment: Capacitor shall be stored at 125 ± 3°C for 1 hour, then placed at
room condition2 for 24 ± 2 hours before initial measurements (R, C).
Post-treatment: Capacitor shall be stored for 1 to 2 hours at room condition2
(SL). Capacitor shall be stored for 24 ± 2 hours at room condition2 (R, C).
Measurement Order: Dielectric Strength ꢀ Pre-treatment ꢀ Capacitance ꢀ
Soldering Effect test ꢀ Post-treatment ꢀ Capacitance, Dielectric Strength
(R [250V]).
Within ±10% (R, C)
Dielectric
Strength
Pass the item No. 5.
(between
lead wires)
10 Humidity
(Under
Appearance No marked defect.
Capacitance Within ±5% (SL)
Change
Set the capacitor for 500 +2–40 hours at 40 ± 2°C in 90 to 95% humidity.
Pre-treatment: Capacitor shall be stored at 125 ± 3°C for 1 hour, then placed at
room condition2 for 24 ± 2 hours before initial measurements (R, C).
Post-treatment: Capacitor shall be stored for 1 to 2 hours at room condition2.
Measurement Order: I.R. ꢀ Pre-treatment ꢀ Capacitance, D.F. ꢀ Humidity test
ꢀ Post-treatment ꢀ Capacitance, D.F., I.R. (R [250V]).
Within ±10% (R, C)
Steady State)
Q
D.F.
C ≥ 30pF: Q ≥ 350
D.F. ≤ 0.4% (R, C)
1
C < 30pF: Q ≥ 275 + 5/
2
C (SL)
(Charge/discharge current ≤50mA).
I.R.
1000M ohms min.
11 Life
Appearance No marked defect.
Capacitance Within ±3% (SL)
Change
Apply a DC voltage of 200% of the rated voltage (in case of rated voltage: 250V,
500V) or DC voltage of 150% of the rated voltage (in case of rated voltage:
Within ±10% (R, C)
+48
–0
1 to 3.15kV) for 1000
hours at 125 ± 2°C.
Pre-treatment: Capacitor shall be stored at 125 ± 3°C for 1 hour, then placed at
room condition2 for 24 ± 2 hours before initial measurements (R, C).
Post-treatment: Capacitor shall be stored for 1 to 2 hours at room condition2
(SL). Capacitor shall be stored at 125 ± 3°C for 1 hour, then placed at room
condition2 for 24 ± 2 hours (R, C).
Q
D.F.
C ≥ 30pF: Q ≥ 350
D.F. ≤ 0.4% (R, C)
1
C < 30pF: Q ≥ 275 + 5/
2
C (SL)
I.R.
2000M ohms min.
(SL, R [1 to 3.15kV], C)
1000M ohms min.
(R [250V])
Measurement Order: I.R. ꢀ Pre-treatment ꢀ Capacitance, D.F. ꢀ Life test ꢀ
I.R.3 ꢀ Post-treatment ꢀ Capacitance, D.F. (R [250V]).
(Charge/discharge current ≤50mA).
12 Strength
of Lead
Pull
Lead wire shall not cut off.
Capacitor shall not be broken.
As in figure, fix the body of capacitor, apply a tensile weight gradually
to each lead wire in the radial direction of capacitor up to 10N
(1.0kgf) and keep it for 10 ± 1 sec.
W
Bending
Each lead wire shall be subjected to 5N (0.51kgf) weight and then a 90° bend, at
the point of egress, in one direction, return to original position, and then a 90°
bend in the opposite direction at the rate of one bend in 2 to 3 seconds.
13 Solderability of Leads
Lead wire shall be soldered with uniform coating on the axial
direction over 3/
of the circumferential direction.
The lead wire of a capacitor shall be dipped into a methanol solution of 25wt%
rosin and then into molten solder of 235 ± 5°C for 2 ± 0.5 seconds. In both
cases the depth of dipping is up to about 1.5 to 2mm from the root of lead wires.
4
1“C” expresses nominal capacitance value (pF). 2“room condition” temperature: 15 to 35°C; humidity: 45 to 75%; atmospheric pressure: 860 to 1060hPa.
3The measurement of I.R. will be held in 12 to 24 hours after Life test.
86
CG01-J
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