ROHM MNA14

MNA14
Ceramic capacitors
Multi-layer ceramic chip capacitor
networks
MNA14 (1608 (0603) × 4 size, chip capacitor networks)
!External dimensions (Units : mm)
0.55±0.1
0.7±0.2
0.85±0.1
0.8±0.1
1.6±0.2
0.15 +− 0.09
0.12
!Features
1) Area ratio is approximately 55% smaller than that of
the MCH18, enabling high - density mounting.
2) Mounting costs are reduced.
3) Use of convex electrodes prevents solder bridging
during mounting, and makes it easy to perform
a visual inspection of the mounted piece.
Also facilitates automatic inspection.
4) Barrier layer and end terminations to improve
solderability.
5) Each element is independent to ensure a wide
range of circuit applications.
6) Can be packed on tape.
0.8±0.1
3.2±0.2
∗Land pattern in 0.8mm pitch between each electrode is recommended.
!Equivalent circuits
!Structure
C1
C2
C3
C4
C1 = C 2 = C 3 = C 4
External electrode ΙΙΙ (coating layer)
Internal electrode
Ceramic element
External electrode ΙΙ (barrier layer)
External electrode Ι (thick membrane layer)
∗The design and specifications are subject to change without prior notice. Before ordering or using, please check the latest technical specification.
MNA14
Ceramic capacitors
!Product designation
Code Product thickness Packaging specifications
Reel
K
0.8mm
Paper tape (width 8 mm, pich 4 mm) φ180mm (7in.)
Basic ordening unit (pcs.)
4,000
Reel (φ180mm) : compatible with EIAJ ET-7200A
Part No.
Packaging style
M N A
Rated voltage
Code Voltage
2
25V
5
50V
1 4
5
A
1 0 1
K
K
Nominal
Capacitance tolerance
Capacitance-temperature characteristics
tolerace
Code EIA code Operating temperature range (°C) Temp. coefficient or percent change capacitance Code
A
C0G
−55 ~ +125
0 ± 30ppm / °C
± 10%
3-digit designation K
CN
X7R
−55 ~ +125
± 15%
according IEC
M
± 20%
!Capacitance range
Product name
Temperature characteristic
Capacitance (pF)
Rated voltage
Tolerance
MNA 14
A (C0G)
CN (X7R)
50V
25V
K ( ± 10%)
M ( ± 20%)
10
22
47
100
220
470
1,000
2,200
4,700
10,000
22,000
Product thickness (mm)
0.8 ± 0.1
∗The design and specifications are subject to change without prior notice. Before ordering or using, please check the latest technical specification.
MNA14
Ceramic capacitors
!Characteristics
Class 1 (For thermal compensation)
Temperature characteristics
A (C0G)
Item
Operating temperature
−55°C ~ +125°C
Nominal capacitance (C)
Must be within the specified tolerance range.
Dissipation factor (tanδ)
100 / (400 + 20C)% or less: Less than 30 pF
0.1% or less : 30 pF or larger
Insulation resistance (IR)
Withstanding voltage
Temperature characteristics
Terminal adherence
Appearance
Resistance
to vibration
Rate of capacitance change
Dissipation factor (tanδ)
Resistance
to soldering
heat
Temperature
cycling
Hightemperature
load test
The insulation must not be damaged.
Based on paragraph 7.1.
Apply 300% of the rated voltage for 1 to 5s
then measure.
Within 0 ± 30ppm / °C
No detachment or signs of detachment.
There must be no mechanical damage.
Must be within initial tolerance.
Must satisfy initial specified value.
Appearance
There must be no mechanical damage.
± 2.5% or ± 0.25 pF, whichever is larger
Dissipation factor (tanδ)
Must satisfy initial specified value.
Insulation resistance
10,000MΩ or 500MΩ⋅µF, whichever is smaller
There must be no mechanical damage.
Rate of capacitance change
± 2.5% or ± 0.25 pF, whichever is larger
Dissipation factor (Tanδ)
The temperature coefficients in table 12, paragraph
7.12 are calculated at 20°C and high temperature.
Based on paragraph 8.11.2.
Apply 5N for 10 ± 1s
in the direction
indicated by the arrow.
Pressure (5N)
Test board
Capacitor
Chip is mounted to a board in the manner
shown on the right, subjected to vibration
(type A in paragraph 8.2), and
Board
measured 24 ± 2 hours later.
Based on paragraph 8.13,
Soldering temperature : 235 ± 5°C
: 2 ± 0.5s
Soldering time
Based on paragraph 8.14.
Soldering temperature : 260 ± 5°C
: 5 ± 0.5s
Soldering time
: 150 ± 10°C for 1 to 2 min.
Preheating
The insulation must not be damaged.
Appearance
Insulation resistance
Humidity load
test
Based on paragraph 7.6.
Measurement is made after rated voltage is
applied for 60 ± 5s.
Rate of capacitance change
Withstanding voltage
Based on paragraph 7.8 and paragraph 9,
Measured at room temperature and standard humidity.
Measurement frequency : 1 ± 0.1MHz
Measurement voltage : 1 ± 0.1Vrms.
10,000MΩ or 500MΩ⋅µF, whichever is smaller
At least 3/4 of the surface of the two terminals
must be covered with new solder.
Solderability
Test methods / conditions
(based on JIS C 5102)
Must satisfy initial specified value.
Based on paragraph 9.3,
Number of cycles : 5
Capacitance measured after 24 ± 2 hrs.
10,000MΩ or 500MΩ⋅µF, whichever is smaller
Appearance
There must be no mechanical damage.
Rate of capacitance change
± 7.5% or ± 0.75 pF, whichever is larger
Dissipation factor (tanδ)
0.5% or less
Insulation resistance
500MΩ or 25MΩ⋅µF, whichever is smaller
Appearance
There must be no mechanical damage.
Rate of capacitance change
± 3.0% or ± 0.3 pF, whichever is larger
Dissipation factor (tanδ)
0.3% or less
Insulation resistance
10,000MΩ or 50MΩ⋅µF, whichever is smaller
Based on paragraph 9.9,
Test temperature : 40 ± 2°C
Relative humidity : 90% to 95%
Applied voltage : rated voltage
Test time
: 500 to 524 hrs.
Capacitance measured after 24 ± 2 hrs.
Based on paragraph 9.10,
Test temperature : Max. operating temp.
Applied voltage : rated voltage × 200%
Test time
: 1,000 to 1,048 hrs.
Capacitance measured after 24 ± 2 hrs.
∗The design and specifications are subject to change without prior notice. Before ordering or using, please check the latest technical specification.
MNA14
Ceramic capacitors
Class 2 (High dielectric constant)
Temperature characteristics
CN (X7R)
Item
Operating temperature
Nominal capacitance (C)
Dissipation factor (tanδ)
Insulation resistance (IR)
Withstanding voltage
Temperature characteristics
Terminal adherence
Appearance
Resistance
to vibration
Rate of capacitance change
Dissipation factor (tanδ)
Appearance
Rate of capacitance change
Resistance
to soldering
heat
10,000MΩ or 500MΩ⋅µF, whichever is smaller
The insulation must not be damaged.
Within ± 15%
No peeling or sign of peeling on terminal.
There must be no mechanical damage.
Must be within initial tolerance.
Must satisfy initial specified value.
Within ± 5.0%
10,000MΩ or 500MΩ⋅µF, whichever is smaller
Rate of capacitance change
Within ± 7.5%
Must satisfy initial specified value.
10,000MΩ or 500MΩ⋅µF, whichever is smaller
There must be no mechanical damage.
Within ± 12.5%
Dissipation factor (tanδ)
5.0% or less
Insulation resistance
500MΩ or 25MΩ⋅µF, whichever is smaller
Rate of capacitance change
The temperature coefficients in paragraph 7.12,
table 8, condition B, are based on measurements
carried out at 20°C, with no voltage applied.
Based on paragraph 8.11.2.
Apply 5N for 10 ± 1s
in the direction indicated
by the arrow.
Pressure (5N)
Test board
Capacitor
Chip is mounted to a board in the
manner shown on the right, subjected
to vibration (type A in paragraph 8.2),
and measured 48 ± 4 hrs. later.
Board
Based on paragraph 8.13
Soldering temperature: 235 ± 5°C
: 2 ± 0.5s
Soldering time
Based on paragraph 8.14.
Soldering temperature: 260 ± 5°C
Soldering time
: 5 ± 0.5s
Preheating
: 150 ± 10°C for
1 to 2 min.
The insulation must not be damaged.
Dissipation factor (tanδ)
Appearance
Based on paragraph 7.6
Measurement is made after rated voltage
is applied for 60 ± 5s.
Based on paragraph 7.1
Apply 250% of the rated voltage
for 1 to 5s then measure.
There must be no mechanical damage.
Insulation resistance
Rate of capacitance change
Based on paragraph 7.8
Measured at room temperature and standard humidity.
Measurement frequency: 1 ± 0.1 kHz
Measurement voltage : 0.1 ± 0.2 Vrms.
There must be no mechanical damage.
Insulation resistance
Appearance
Hightemperature
load test
2.5% or less
(when rated voltage is 16V : 3.5% or less)
Must satisfy initial specified value.
Appearance
Humidity load
test
Must be within the specified tolerance range.
Dissipation factor (tanδ)
Withstanding voltage
Temperature
cycling
−55°C ~ +125°C
At least 3/4 of the surface of the two terminals must be covered with new solder.
Solderability
Test methods/conditions
(based on JIS C 5102)
Based on paragraph 9.3
Number of cycles : 5
Capacitance measured after 48 ± 4 hrs.
Based on paragraph 9.9
Test temperature : 40 ± 2°C
Relative humidity : 90% to 95%
Applied voltage : rated voltage
Test time
: 500 to 524 hrs.
Capacitance measured after 48 ± 4 hrs.
There must be no mechanical damage.
Within ± 10.0%
Dissipation factor (tanδ)
5.0% or less
Insulation resistance
1,000MΩ or 50MΩ⋅µF, whichever is smaller
Based on paragraph 9.10
Test temperature : Max. operating temp.
Applied voltage : rated voltage × 200%
Test time
: 1,000 to 1,048 hrs.
Capacitance measured after 48 ± 4 hrs.
∗The design and specifications are subject to change without prior notice. Before ordering or using, please check the latest technical specification.
MNA14
Ceramic capacitors
!Packaging specifications
(Units : mm)
Taping
Reel
t
φJ
C
t1
F
G
φ13 ± 0.2
B
H
(Paper taping)
C
Symbol
Dimensions
D
E
Pulling direction
F
G
H
J
t
11.4 ± 1.0
0
φ180 −1.5
D
−0
φ 60 +1
9.0 ± 0.3
E
A
t1
3.5 1.75 4.0 2.0 4.0 φ1.5 1.05 1.2
8.0
MAX. MAX.
±0.3 ±0.05 ±0.1 ±0.1 ±0.05 ±0.1 +0.1
0
Label position
Size
Symbol
1608 × 4
A
B
2.0 ±0.1 3.5 ±0.1
(φ180mm reel)
EIAJ ET-7200A compliant
∗The design and specifications are subject to change without prior notice. Before ordering or using, please check the latest technical specification.
MNA14
Ceramic capacitors
!Electrical characteristics
gA (C0G) Characteristics
10000
4
1000
3
2
IMPEDANCE (Ω)
RATE OF CAPACITANCE CHANGE : (%)
5
1
0
−1
−2
100
10
100pF
1
−3
220pF
0.1
−4
−5
470pF
−50
0
50
0
100
1
10
100
1000
10000
FREQUENCY (MHz)
TEMPERATURE : (°C)
Fig.2
Fig.1 Capacitance-temperature
characteristics
Impedance-frequency
characteristics
gCN (X7R) Characteristics
1000
20
10
∆C / C
0
100
IMPEDANCE (Ω)
−10
−20
−30
15
10
5
tanδ
−50
0
50
100
0
tanδ (%)
RATE OF CAPACITANCE CHANGE : (%)
30
10
1,000pF
1
0.1
10,000pF
0.01
1
10
TEMPERATURE : (°C)
Fig.3
Capacitance-temperature
characteristics
100
1000
10000
FREQUENCY (MHz)
Fig.4
Impedance-frequency
characteristics
∗The design and specifications are subject to change without prior notice. Before ordering or using, please check the latest technical specification.
MNA14
Ceramic capacitors
gTemperature cycling test
A (C0G) Characteristics (100pF)
0.6
JIS C 5102 9. 3
SAMPLE SIZE : n = 50pcs
−55 / +125°C 100cyc
2.0
JIS C 5102 9. 3
SAMPLE SIZE : n = 50pcs
−55 / +125°C 100cyc
0.5
0
IR : (Ω)
0.4
0.3
−1.0
0.2
−2.0
0.1
−3.0
1 × 1011
0
INITIAL VALUE
TESTED
INITIAL VALUE
Fig.5 Rate of capacitance change
INITIAL VALUE
TESTED
TESTED
Fig.7 Insulation resistance
Fig.6 tanδ
CN (X7R) Characterisics (10,000pF)
6.0
JIS C 5102 9. 3
SAMPLE SIZE : n = 50pcs
−55 / +125°C 100cyc
10.0
JIS C 5102 9. 3
SAMPLE SIZE : n = 50pcs
−55 / +125°C 100cyc
5.0
5.0
JIS C 5102 9. 3
SAMPLE SIZE : n = 50pcs
−55 / +125°C 100cyc
1 × 1012
tanδ : (%)
4.0
0
3.0
−5.0
2.0
−10.0
1.0
−15.0
INITIAL VALUE
IR : (Ω)
15.0
RATE OF CAPACITANCE CHANGE : (%)
JIS C 5102 9. 3
SAMPLE SIZE : n = 50pcs
−55 / +125°C 100cyc
1 × 1 012
1.0
tanδ : (%)
RATE OF CAPACITANCE CHANGE : (%)
3.0
1 × 1011
0
TESTED
INITIAL VALUE
Fig.8 Rate of capacitance change
INITIAL VALUE
TESTED
TESTED
Fig.10 Insulation resistance
Fig.9 tanδ
gHigh – temperature load test
A (C0G) Characteristics (100pF)
0.6
JIS C 5102 9. 10
SAMPLE SIZE : n = 50pcs
+125°C 1,000h
OVERLOAD : 200% RATED VOLTAGE
2.0
JIS C 5102 9. 10
SAMPLE SIZE : n = 50pcs
+125°C 1,000h
OVERLOAD : 200% RATED VOLTAGE
0.5
1.0
1 × 1012
0.0
0.3
−1.0
0.2
−2.0
0.1
−3.0
IR : (Ω)
0.4
tanδ : (%)
RATE OF CAPACITANCE CHANGE : (%)
3.0
1 × 1011
JIS C 5102 9. 10
SAMPLE SIZE : n = 50pcs
+125°C 1,000h
OVERLOAD : 200% RATED VOLTAGE
0
0
240
480
720
1000
0
240
480
720
TIME (h)
TIME (h)
Fig.11 Rate of capacitance change
Fig.12 tanδ
1000
1 × 1010
0
240
480
720
1000
TIME (h)
Fig.13 Insulation resistance
∗The design and specifications are subject to change without prior notice. Before ordering or using, please check the latest technical specification.
MNA14
Ceramic capacitors
CN (X7R) Characteristics (10,000pF)
6.0
JIS C 5102 9. 10
SAMPLE SIZE : n = 50pcs
+125°C 1,000h
OVERLOAD : 200% RATED VOLTAGE
10.0
JIS C 5102 9. 10
SAMPLE SIZE : n = 50pcs
+125°C 1,000h
OVERLOAD : 200% RATED VOLTAGE
5.0
JIS C 5102 9. 10
SAMPLE SIZE : n = 50pcs
+125°C 1,000h
OVERLOAD : 200% RATED VOLTAGE
1 × 1012
0.0
3.0
−5.0
2.0
−10.0
1.0
−15.0
IR : (Ω)
4.0
5.0
tanδ : (%)
RATE OF CAPACITANCE CHANGE : (%)
15.0
0
0
240
480
720
0
1000
240
480
720
1000
1 × 1011
0
240
480
720
1000
TIME (h)
TIME (h)
TIME (h)
Fig.14 Rate of capacitance change
Fig.15 tanδ
Fig.16 Insulation resistance
gHumidity load test
A (C0G) Characteristics (100pF)
0.6
JIS C 5102 9. 9
SAMPLE SIZE : n = 50pcs
+40°C 90 ~ 95%RH 1,000h
OVERLOAD : THE RATED VOLTAGE
1.0
0.0
0.3
0.2
−2.0
0.1
0
240
480
720
0
240
TIME (h)
Fig.17 Rate of capacitance change
480
720
1000
1 × 1010
0
240
480
720
1000
TIME (h)
TIME (h)
Fig.18 tanδ
Fig.19 Insulation resistance
CN (X7R) Characteristics (10,000pF)
6.0
JIS C 5102 9. 9
SAMPLE SIZE : n = 50pcs
+40°C 90 ~ 95%RH 1,000h
OVERLOAD : THE RATED VOLTAGE
10.0
JIS C 5102 9. 9
SAMPLE SIZE : n = 50pcs
+40°C 90 ~ 95%RH 1,000h
OVERLOAD : THE RATED VOLTAGE
5.0
1 × 1012
5.0
0
−5.0
IR : (Ω)
4.0
tanδ : (%)
RATE OF CAPACITANCE CHANGE : (%)
15.0
1 × 1012
1 × 1011
0
1000
JIS C 5102 9. 9
SAMPLE SIZE : n = 50pcs
+40°C 90 ~ 95%RH 1,000h
OVERLOAD : THE RATED VOLTAGE
0.4
−1.0
−3.0
JIS C 5102 9. 9
SAMPLE SIZE : n = 50pcs
+40°C 90 ~ 95%RH 1,000h
OVERLOAD : THE RATED VOLTAGE
0.5
IR : (Ω)
2.0
tanδ : (%)
RATE OF CAPACITANCE CHANGE : (%)
3.0
3.0
1 × 1011
2.0
−10.0
JIS C 5102 9. 9
SAMPLE SIZE : n = 50pcs
+40°C 90 ~ 95%RH 1,000h
OVERLOAD : THE RATED VOLTAGE
1.0
−15.0
0
240
480
720
1000
TIME (h)
Fig.20 Rate of capacitance change
0
0
240
480
720
1000
1 × 1010
0
240
480
720
1000
TIME (h)
TIME (h)
Fig.21 tanδ
Fig.22 Insulation resistance
∗The design and specifications are subject to change without prior notice. Before ordering or using, please check the latest technical specification.
Appendix
Notes
No technical content pages of this document may be reproduced in any form or transmitted by any
means without prior permission of ROHM CO.,LTD.
The contents described herein are subject to change without notice. The specifications for the
product described in this document are for reference only. Upon actual use, therefore, please request
that specifications to be separately delivered.
Application circuit diagrams and circuit constants contained herein are shown as examples of standard
use and operation. Please pay careful attention to the peripheral conditions when designing circuits
and deciding upon circuit constants in the set.
Any data, including, but not limited to application circuit diagrams information, described herein
are intended only as illustrations of such devices and not as the specifications for such devices. ROHM
CO.,LTD. disclaims any warranty that any use of such devices shall be free from infringement of any
third party's intellectual property rights or other proprietary rights, and further, assumes no liability of
whatsoever nature in the event of any such infringement, or arising from or connected with or related
to the use of such devices.
Upon the sale of any such devices, other than for buyer's right to use such devices itself, resell or
otherwise dispose of the same, no express or implied right or license to practice or commercially
exploit any intellectual property rights or other proprietary rights owned or controlled by
ROHM CO., LTD. is granted to any such buyer.
Products listed in this document use silicon as a basic material.
Products listed in this document are no antiradiation design.
The products listed in this document are designed to be used with ordinary electronic equipment or devices
(such as audio visual equipment, office-automation equipment, communications devices, electrical
appliances and electronic toys).
Should you intend to use these products with equipment or devices which require an extremely high level of
reliability and the malfunction of with would directly endanger human life (such as medical instruments,
transportation equipment, aerospace machinery, nuclear-reactor controllers, fuel controllers and other
safety devices), please be sure to consult with our sales representative in advance.
About Export Control Order in Japan
Products described herein are the objects of controlled goods in Annex 1 (Item 16) of Export Trade Control
Order in Japan.
In case of export from Japan, please confirm if it applies to "objective" criteria or an "informed" (by MITI clause)
on the basis of "catch all controls for Non-Proliferation of Weapons of Mass Destruction.
Appendix1-Rev1.0