AVX F98 Resin-molded chip, high cv undertab Datasheet

F98 Series
Resin-Molded Chip, High CV Undertab
FEATURES
• Compliant to the RoHS2 directive 2011/65/EU
• SMD face down design
• Small and low profile
LEAD-FREE COMPATIBLE
COMPONENT
APPLICATIONS
• Smartphone
• Mobile phone
• Wireless module
• Hearing aid
L
CASE DIMENSIONS: millimeters (inches)
W1
Code
H
W2
S1
S2
L
W1
+0.20
-0.10
+0.008
-0.004
+0.20
-0.10
+0.008
-0.004
M
1.60
(0.063
S
2.00
(0.079
U
1.10±0.05
(0.043±0.002)
S1
W2
H
S1
S2
)
0.65±0.10
(0.026±0.004)
0.80±0.10
(0.031±0.004)
0.50±0.10
(0.020±0.004)
0.60±0.10
(0.024±0.004)
)
0.90±0.10
(0.035±0.004)
0.80±0.10
(0.031±0.004)
0.50±0.10
(0.020±0.004)
1.00±0.10
(0.039±0.004)
0.60±0.05
(0.024±0.002)
0.35±0.05
(0.014±0.002)
0.55±0.05
(0.022±0.002)
0.30±0.05
(0.012±0.002)
0.50±0.05
(0.020±0.002)
)
0.85
(0.033
)
1.25
(0.049
+0.20
-0.10
+0.008
-0.004
+0.20
-0.10
+0.008
-0.004
MARKING
U CASE
M CASE
S CASE
*Capacitance
Code
J
Js
Rated Voltage
Code
Rated Voltage
Code
HOW TO ORDER
F98
0J
106
Type
Rated
Voltage
Capacitance
Code
pF code: 1st two digits
represent significant figures,
3rd digit represents multiplier
(number of zeros to follow)
M
M
ⵧ
LZT
Tolerance
M = ±20%
Case
Size
See
table
above
Packaging
See Tape & Reel
Packaging Section
Specification
Suffix
Rated
temperature
60ºC only
TECHNICAL SPECIFICATIONS
Category Temperature Range:
Rated Temperature:
Capacitance Tolerance:
Dissipation Factor:
ESR 100kHz:
Leakage Current:
66 ■ APRIL 2014
-55 to +125°C
+85°C
±20% at 120Hz
Refer to next page
Refer to next page
Refer to next page
Provided that:
After 5 minute’s application of rated voltage, leakage current at 85°C
10 times or less than 20ºC specified value.
After 5 minute’s application of rated voltage, leakage current at 125°C
12.5 times or less than 20ºC specified value.
F98 Series
Resin-Molded Chip, High CV Undertab
CAPACITANCE AND RATED VOLTAGE RANGE
(LETTER DENOTES CASE SIZE)
Capacitance
μF
Code
1
105
2.2
225
4.7
475
10
106
22
226
33
336
47
476
68
686
100
107
220
227
4V (0G)
6.3V (0J)
U
U
M
M
M
M/S
M/S
S
M/U
M/U**
M
M
M/S
Rated Voltage
10V (1A)
M/U
M/U**
M
M**/S
M**/S
S
16V (1C)
M
M
M
S
20V (1D)
M
25V (1E)
M
S
Available Ratings
*Codes under development – subject to change
**Rated temperature 60ºC only. Please contact AVX when you need detail spec.
*Cap
Code
–
–
–
a
J
n
s
w
A
J
We can consider the type of compliance to AEC-Q200.
Please contact to your local AVX sales office when these series
are being designed in your application.
RATINGS & PART NUMBER REFERENCE
AVX
Part No.
Case Capacitance
Size
(μF)
F980G475MUA
F980G106MUA
F980G226MMA
F980G336MMA
F980G476MMA
F980G686MMA
F980G686MSA
F980G107MMA
F980G107MSA
F980G227MSA
U
U
M
M
M
M
S
M
S
S
4.7
10
22
33
47
68
68
100
100
220
F980J475MUA
F980J475MMA
F980J106MMA
F980J106MUALZT
F980J226MMA
F980J336MMA
F980J476MMA
F980J476MSA
F980J107MSA
U
M
M
U
M
M
M
S
S
4.7
4.7
10
10
22
33
47
47
100
F981A225MUA
F981A225MMA
F981A475MMA
F981A106MMA
F981A226MMALZT
F981A226MSA
F981A336MMALZT
F981A336MSA
F981A476MSA
U
M
M
M
M
S
M
S
S
2.2
2.2
4.7
10
22
22
33
33
47
F981C105MMA
F981C225MMA
F981C475MMA
F981C106MSA
M
M
M
S
1
2.2
4.7
10
F981D105MMA
M
1
F981E105MMA
M
1
Rated
Voltage
(V)
4 Volt
4
4
4
4
4
4
4
4
4
4
6.3 Volt
6.3
6.3
6.3
6.3
6.3
6.3
6.3
6.3
6.3
10 Volt
10
10
10
10
10
10
10
10
10
16 Volt
16
16
16
16
20 Volt
20
25 Volt
25
*2
DCL
(μA)
DF
ESR
(%)
(Ω)
@ 120Hz @ 100kHz
*1
ΔC/C
(%)
0.5
0.8
0.9
1.3
1.9
27.2
2.7
80.0
4.0
132
20
25
15
30
40
50
30
60
35
80
20
20
7.5
4
8
10
4
10
4
5
±30
±30
±30
±30
±30
±30
±30
±30
±30
±30
0.6
0.5
0.6
6.3
1.4
4.2
29.6
3.0
63.0
20
20
8
30
20
35
45
25
50
20
7.5
6
30
6
8
10
6
8
±30
±30
±30
±30
±30
±30
±30
±30
±30
0.5
0.5
0.5
1.0
11.0
2.2
33.0
3.3
9.4
15
6
6
20
30
20
45
30
35
15
7.5
6
7.5
8
4
8
6
5
±30
±30
±30
±30
±30
±30
±30
±30
±30
0.5
0.5
0.8
1.6
6
6
12
18
10
10
12
4
±30
±30
±30
±30
0.5
6
10
±30
0.5
8
10
±30
*2: Leakage Current
After 5 minute’s application of rated voltage,
leakage current at 20ºC.
APRIL 2014
■ 67
F98 Series
Resin-Molded Chip, High CV Undertab
QUALIFICATION TABLE
Damp Heat
(Steady State)
Temperature Cycles
Resistance to
Soldering Heat
Surge
Endurance
Shear Test
Terminal Strength
68 ■ APRIL 2014
At 40°C, 90 to 95% R.H., 500 hours (No voltage applied)
Capacitance Change ........... Refer to page 67 (*1)
Dissipation Factor ................ 150% or less of initial specified value
Leakage Current .................. 200% or less of initial specified value
-55°C / +125°C, 30 minutes each, 5 cycles
Capacitance Change ........... Refer to page 67 (*1)
Dissipation Factor ................ 150% or less of initial specified value
Leakage Current .................. 200% or less of initial specified value
10 seconds reflow at 260°C, 5 seconds immersion at 260°C.
Capacitance Change ........... Refer to page 67 (*1)
Dissipation Factor ................ Initial specified value or less
Leakage Current .................. Initial specified value or less
After application of surge in series with a 1kΩ resistor at the rate of 30 seconds ON, 30 seconds OFF,
for 1000 successive test cycles at 85ºC, capacitors shall meet the characteristic requirements in the table above.
Capacitance Change ........... Refer to page 67 (*1)
Dissipation Factor ................ 150% or less of initial specified value
Leakage Current .................. 200% or less of initial specified value
After 1000 hours’ application of rated voltage in series with a 3Ω resistor at 85°C,
capacitors shall meet the characteristic requirements in the table above.
Capacitance Change ........... Refer to page 67 (*1)
Dissipation Factor ................ 150% or less of initial specified value
Leakage Current .................. 200% or less of initial specified value
After applying the pressure load of 5N for 10±1 seconds horizontally to the center of capacitor side body
which has no electrode and has been soldered beforehand on a substrate, there shall be found neither
exfoliation nor its sign at the terminal electrode.
Keeping a capacitor surface-mounted on a substrate upside down and supporting the substrate at
both of the opposite bottom points 45mm apart from the center of capacitor, the pressure strength is
applied with a specified jig at the center of substrate so that the substrate may bend by 1mm as
illustrated. Then, there shall be found no remarkable abnormality on the capacitor terminals.
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