11
notice_e-01
Notice for TAIYO YUDEN products
Please read this notice before using the TAIYO YUDEN products.
REMINDERS
Product information in this catalog is as of October 2010. All of the contents specified herein are subject to change
without notice due to technical improvements, etc. Therefore, please check for the latest information carefully be-
fore practical application or usage of the Products.
Please note that Taiyo Yuden Co., Ltd. shall not be responsible for any defects in products or equipment incorpo-
rating such products, which are caused under the conditions other than those specified in this catalog or individual
specification.
Please contact Taiyo Yuden Co., Ltd. for further details of product specifications as the individual specification is
available.
Please conduct validation and verification of products in actual condition of mounting and operating environment
before commercial shipment of the equipment.
All electronic components or functional modules listed in this catalog are developed, designed and intended for
use in general electronics equipment.(for AV, office automation, household, office supply, information service,
telecommunications, (such as mobile phone or PC) etc.). Before incorporating the components or devices into any
equipment in the field such as transportation,( automotive control, train control, ship control), transportation signal,
disaster prevention, medical, public information network (telephone exchange, base station) etc. which may have
direct influence to harm or injure a human body, please contact Taiyo Yuden Co., Ltd. for more detail in advance.
Do not incorporate the products into any equipment in fields such as aerospace, aviation, nuclear control, subma-
rine system, military, etc. where higher safety and reliability are especially required.
In addition, even electronic components or functional modules that are used for the general electronic equipment,
if the equipment or the electric circuit require high safety or reliability function or performances, a sufficient reliabil-
ity evaluation check for safety shall be performed before commercial shipment and moreover, due consideration to
install a protective circuit is strongly recommended at customer's design stage.
The contents of this catalog are applicable to the products which are purchased from our sales offices or distribu-
tors (so called TAIYO YUDENs official sales channel).
It is only applicable to the products purchased from any of TAIYO YUDEN s official sales channel.
Please note that Taiyo Yuden Co., Ltd. shall have no responsibility for any controversies or disputes that may oc-
cur in connection with a third party's intellectual property rights and other related rights arising from your usage of
products in this catalog. Taiyo Yuden Co., Ltd. grants no license for such rights.
Caution for export
Certain items in this catalog may require specific procedures for export according to Foreign Exchange and For-
eign Trade Control Law of Japan, U.S. Export Administration Regulations, and other applicable regulations.
Should you have any question or inquiry on this matter, please contact our sales staff.
16
11
mlcc03_e-01
FEATURES
PART NUMBER
STANDARD EXTERNAL DIMENSIONS/STANDARD QUANTITY
AVAILABLE CAPACITANCE RANGE
APPLICATIONS
This catalog contains the typical specication only due to the limitation of space. When you consider the purchase of our products, please check our specification.
For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) or CD catalogs.
◦Improved higher density mounting.
◦Monolithic structure provides higher reliability.
A wide range of capacitance values available in standard case sizes.
◦General electronic equipment
◦Communication equipment
cellular phone, wireless applications, etc.
Rated voltage
VDC
A 4
J 6.3
L 10
E 16
T 25
G 35
U 50 Thicknessmm
C 0.2
P 0.3
V 0.5
Nominal capacitance
pF
example
102 1000
223 22000
Temperature
characteristics code
BJB
X5R
B7 X7R
FF
Y5V
Blank space
End termination
K Plated
Capacitance
tolerance
K±10%
M±20%
Z80
20 %
STANDARD MULTILAYER CERAMIC CAPACITORS
CLASS2 :HIGH DIELECTRIC CONSTANT TYPE
Temp.char.Code Temperature characteristics Capacitance tolerance
〔%
Applicable standard Temperature range〔℃〕 Ref. Temp.℃〕 Capacitance change〔%
BJ JIS B 2585 20 ±10 ±10K
±20M
EIA X5R 5585 25 ±15
B7 EIA X7R 55125 25 ±15
FJIS F 2585 20 30/80 80  
20
Z
EIA Y5V 3085 25 22/82
Series name
MMultilayer ceramic
capacitor
Packaging
Fφ178mm Taping
2mm pitch
Wφ178mm Taping
1mm pitch, 042 Type
Special code
Standard
Internal code
Standard
Blank space
REFLOW
L M K 1 0 5 B J 1 0 4 K V F
Dimension
Type inchL×Wmm
042 010050.4×0.2
063 02010.6×0.3
105 04021.0×0.5
Low Profile Multilayer Ceramic
Capacitors 
Multilayer Ceramic Capacitors 
Dimension tolerancemm
Code Type L W T
ALL Standard Standard Standard
A105 1.0±0.1 0.5±0.1 0.5±0.1
B 1.00.15/0.05 0.50.15/0.05 0.50.15/0.05
Blank space
Type Dimension [mm] Standard quantity [pcs]
L W T e Paper tape Embossed tape
MK042
01005 inch0.4±0.02 0.2±0.02 0.2±0.02 C 0.1±0.03 40000
MK063
0201 inch0.6±0.03 0.3±0.03 0.3±0.03 P 0.15±0.05 15000
MK105
0402 inch1.0±0.05 0.5±0.05
0.2±0.02 C
0.25±0.10
20000
0.3±0.03 P 15000
0.5±0.05 V 10000
Cap
pF
Type 042 063 105
X7R
B/X5R X7R B/X5R X7R B/X5R F/Y5V
VDC 10 10 6.3 25 16 25 16 10 6.3 4 50 25 16 10 6.3 50 35 25 16 10 6.3 4 50 25 16 10 6.3
3-digit
100 101 C C P P
150 151 C C P P
220 221 C C P P V V
330 331 C C P P V V
470 471 C C P P V V
680 681 C C P P V V
1000 102 C C P P V V
1500 152 C C P P P V V V
2200 222 C C P P P V V V
3300 332 C C P P P V V V
4700 472 C C P P P V V V
6800 682 C C P P P V V V
10000 103 C C P P P V V V V
15000 153 V V
22000 223 C P P V V V V V
33000 333 P P V V
47000 473 P P V V V V V
68000 683 P P V
100000 104 P P V V V V V V V
220000 224 P P P V V V V V
330000 334 P
470000 474 P V V V
1000000 105 V V V V
2200000 225 V
3300000 335 V
4700000 475 V V
NoteLetters in the table indicate product thickness.  X5R only
Cap
pF
Type 105
B/X5R
VDC 25 16 10 6.3
3-digit
100 101
150 151
220 221
330 331
470 471
680 681
1000 102
1500 152
2200 222
3300 332
4700 472
6800 682
10000 103 P
15000 153
22000 223
33000 333
47000 473
68000 683
100000 104 P C
220000 224 P C
330000 334
470000 474 P C
1000000 105 P
2200000 225
3300000 335
4700000 475
17
11
CAPACITORS
mlcc03_e-01
REPRESENTATIVE PART NUMBERS
This catalog contains the typical specication only due to the limitation of space. When you consider the purchase of our products, please check our specification.
For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) or CD catalogs.
042TYPE01005 case size
063TYPE0201 case size
Temperature Characteristic BJ:B/X5R
Temperature Characteristic BJ:B/X5R
Temperature Characteristic B7X7R
Rated
voltage Part number 1 Part number 2 Temp.
char.
Capacitance
pF
Capacitance
tolerance
tanδ
%
Thickness
mm
Soldering
R:Reflow
W:Wave
HALT Internal
code
P/N 1
Note
% Rated
voltage
10V LMK042 BJ101C B/X5R*1100 ±10, ±20 5 0.2±0.02 R 200%
LMK042 BJ151C B/X5R*1150 ±10, ±20 5 0.2±0.02 R 200%
LMK042 BJ221C B/X5R*1220 ±10, ±20 5 0.2±0.02 R 200%
LMK042 BJ331C B/X5R*1330 ±10, ±20 5 0.2±0.02 R 200%
LMK042 BJ471C B/X5R*1470 ±10, ±20 5 0.2±0.02 R 200%
LMK042 BJ681C B/X5R*1680 ±10, ±20 5 0.2±0.02 R 200%
LMK042 BJ102C B/X5R*11000 ±10, ±20 5 0.2±0.02 R 200%
LMK042 BJ152C X5R 1500 ±10, ±20 10 0.2±0.02 R 150%
LMK042 BJ222C X5R 2200 ±10, ±20 10 0.2±0.02 R 150%
LMK042 BJ332C X5R 3300 ±10, ±20 10 0.2±0.02 R 150%
LMK042 BJ472C X5R 4700 ±10, ±20 10 0.2±0.02 R 150%
LMK042 BJ682C X5R 6800 ±10, ±20 10 0.2±0.02 R 150%
LMK042 BJ103C X5R 10000 ±10, ±20 10 0.2±0.02 R 150%
6.3V JMK042 BJ152C B/X5R*11500 ±10, ±20 10 0.2±0.02 R 150%
JMK042 BJ222C B/X5R*12200 ±10, ±20 10 0.2±0.02 R 150%
JMK042 BJ332C B/X5R*13300 ±10, ±20 10 0.2±0.02 R 150%
JMK042 BJ472C B/X5R*14700 ±10, ±20 10 0.2±0.02 R 150%
JMK042 BJ682C B/X5R*16800 ±10, ±20 10 0.2±0.02 R 150%
JMK042 BJ103C B/X5R*110000 ±10, ±20 10 0.2±0.02 R 150%
JMK042 BJ223C X5R 22000 ±10, ±20 10 0.2±0.02 R 150%
Capacitance tolerance code is applied to of part number.
*1 We may provide X7S/X7R for some items according to the individual specification.
Rated
voltage Part number 1 Part number 2 Temp.
char.
Capacitance
pF
Capacitance
tolerance
tanδ
%
Thickness
mm
Soldering
R:Reflow
W:Wave
HALT Internal
code
P/N 1
Note
% Rated
voltage
10V LMK042 B7101C X7R 100±10, ±20 5 0.2±0.02 R 200%
LMK042 B7151C X7R 150±10, ±20 5 0.2±0.02 R 200%
LMK042 B7221C X7R 220±10, ±20 5 0.2±0.02 R 200%
LMK042 B7331C X7R 330±10, ±20 5 0.2±0.02 R 200%
LMK042 B7471C X7R 470±10, ±20 5 0.2±0.02 R 200%
LMK042 B7681C X7R 680±10, ±20 5 0.2±0.02 R 200%
LMK042 B7102C X7R 1000 ±10, ±20 5 0.2±0.02 R 200%
Capacitance tolerance code is applied to of part number.
Rated
voltage Part number 1 Part number 2 Temp.
char.
Capacitance
pF
Capacitance
tolerance
tanδ
%
Thickness
mm
Soldering
R:Reflow
W:Wave
HALT Internal
code
P/N 1
Note
% Rated
voltage
25V TMK063 BJ101P B/X5R*1100 ±10, ±20 3.5 0.3±0.03 R 200%
TMK063 BJ151P B/X5R*1150 ±10, ±20 3.5 0.3±0.03 R 200%
TMK063 BJ221P B/X5R*1220 ±10, ±20 3.5 0.3±0.03 R 200%
TMK063 BJ331P B/X5R*1330 ±10, ±20 3.5 0.3±0.03 R 200%
TMK063 BJ471P B/X5R*1470 ±10, ±20 3.5 0.3±0.03 R 200%
TMK063 BJ681P B/X5R*1680 ±10, ±20 3.5 0.3±0.03 R 200%
TMK063 BJ102P B/X5R*11000 ±10, ±20 3.5 0.3±0.03 R 200%
TMK063 BJ152P B/X5R 1500 ±10, ±20 5 0.3±0.03 R 200%
TMK063 BJ222P B/X5R 2200 ±10, ±20 5 0.3±0.03 R 200%
TMK063 BJ332P B/X5R 3300 ±10, ±20 5 0.3±0.03 R 200%
TMK063 BJ472P B/X5R 4700 ±10, ±20 5 0.3±0.03 R 200%
TMK063 BJ682P B/X5R 6800 ±10, ±20 5 0.3±0.03 R 200%
TMK063 BJ103P B/X5R 10000 ±10, ±20 5 0.3±0.03 R 200%
16V EMK063 BJ152P B/X5R*11500 ±10, ±20 5 0.3±0.03 R 200%
EMK063 BJ222P B/X5R*12200 ±10, ±20 5 0.3±0.03 R 200%
EMK063 BJ332P B/X5R*13300 ±10, ±20 5 0.3±0.03 R 200%
EMK063 BJ472P B/X5R*14700 ±10, ±20 5 0.3±0.03 R 200%
EMK063 BJ682P B/X5R*16800 ±10, ±20 5 0.3±0.03 R 200%
EMK063 BJ103P B/X5R*110000 ±10, ±20 5 0.3±0.03 R 200%
10V LMK063 BJ223P B/X5R 22000 ±10, ±20 7.5 0.3±0.03 R 150%
LMK063 BJ333P X5R 33000 ±10, ±20 7.5 0.3±0.03 R 150%
LMK063 BJ473P X5R 47000 ±10, ±20 7.5 0.3±0.03 R 150%
LMK063 BJ683P X5R 68000 ±10, ±20 10 0.3±0.03 R 150%
LMK063 BJ104P X5R 100000 ±10, ±20 10 0.3±0.03 R 150%
LMK063 BJ224MP X5R 220000 ±20 10 0.3±0.03 R 150%
6.3V JMK063 BJ223P B/X5R 22000 ±10, ±20 7.5 0.3±0.03 R 200%
JMK063 BJ333P X5R 33000 ±10, ±20 7.5 0.3±0.03 R 150%
JMK063 BJ473P X5R 47000 ±10, ±20 7.5 0.3±0.03 R 150%
JMK063 BJ683P X5R 68000 ±10, ±20 10 0.3±0.03 R 150%
JMK063 BJ104P X5R 100000 ±10, ±20 10 0.3±0.03 R 150%
JMK063 BJ224MP X5R 220000 ±20 10 0.3±0.03 R 150%
4V AMK063 BJ224MP X5R 220000 ±20 10 0.3±0.03 R 150%
AMK063 BJ334MP X5R 330000 ±20 10 0.3±0.03 R 150% *2
AMK063 BJ474MP X5R 470000 ±20 10 0.3±0.03 R 150%
Capacitance tolerance code is applied to of part number.
*1 We may provide X7R for some items according to the individual specification.
*2 The exchange of individual specification is necessary depending on the application and circuit condition. Please contact Taiyo Yuden sales channels.
18
11
mlcc03_e-01
REPRESENTATIVE PART NUMBERS
This catalog contains the typical specication only due to the limitation of space. When you consider the purchase of our products, please check our specification.
For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) or CD catalogs.
105TYPE0402 case size
Temperature Characteristic BJ:B/X5R
0.5mm thicknessV
Temperature Characteristic B7X7R
Rated
voltage Part number 1 Part number 2 Temp.
char.
Capacitance
pF
Capacitance
tolerance
tanδ
%
Thickness
mm
Soldering
R:Reflow
W:Wave
HALT Internal
code
P/N 1
Note
% Rated
voltage
25V TMK063 B7101P X7R 100±10, ±20 3.5 0.3±0.03 R 200%
TMK063 B7151P X7R 150±10, ±20 3.5 0.3±0.03 R 200%
TMK063 B7221P X7R 220±10, ±20 3.5 0.3±0.03 R 200%
TMK063 B7331P X7R 330±10, ±20 3.5 0.3±0.03 R 200%
TMK063 B7471P X7R 470±10, ±20 3.5 0.3±0.03 R 200%
TMK063 B7681P X7R 680±10, ±20 3.5 0.3±0.03 R 200%
TMK063 B7102P X7R 1000 ±10, ±20 3.5 0.3±0.03 R 200%
16V EMK063 B7152P X7R 1500 ±10, ±20 5 0.3±0.03 R 200%
EMK063 B7222P X7R 2200 ±10, ±20 5 0.3±0.03 R 200%
EMK063 B7332P X7R 3300 ±10, ±20 5 0.3±0.03 R 200%
EMK063 B7472P X7R 4700 ±10, ±20 5 0.3±0.03 R 200%
EMK063 B7682P X7R 6800 ±10, ±20 5 0.3±0.03 R 200%
EMK063 B7103P X7R 10000 ±10, ±20 5 0.3±0.03 R 200%
Capacitance tolerance code is applied to of part number.
Rated
voltage Part number 1 Part number 2 Temp.
char.
Capacitance
pF
Capacitance
tolerance
tanδ
%
Thickness
mm
Soldering
R:Reflow
W:Wave
HALT Internal
code
P/N 1
Note
% Rated
voltage
50V UMK105 BJ221V B/X5R*1220 ±10, ±20 2.5 0.5±0.05 R 200%
UMK105 BJ331V B/X5R*1330 ±10, ±20 2.5 0.5±0.05 R 200%
UMK105 BJ471V B/X5R*1470 ±10, ±20 2.5 0.5±0.05 R 200%
UMK105 BJ681V B/X5R*1680 ±10, ±20 2.5 0.5±0.05 R 200%
UMK105 BJ102V B/X5R*11000 ±10, ±20 2.5 0.5±0.05 R 200%
UMK105 BJ152V B/X5R*11500 ±10, ±20 2.5 0.5±0.05 R 200%
UMK105 BJ222V B/X5R*12200 ±10, ±20 2.5 0.5±0.05 R 200%
UMK105 BJ332V B/X5R*13300 ±10, ±20 2.5 0.5±0.05 R 200%
UMK105 BJ472V B/X5R*14700 ±10, ±20 2.5 0.5±0.05 R 200%
UMK105 BJ682V B/X5R*16800 ±10, ±20 2.5 0.5±0.05 R 150%
UMK105 BJ103V B/X5R*110000 ±10, ±20 3.5 0.5±0.05 R 200%
35V GMK105 BJ104V B/X5R 100000 ±10, ±20 5 0.5±0.05 R 150%
25V TMK105 BJ153V B/X5R*115000 ±10, ±20 3.5 0.5±0.05 R 200%
TMK105 BJ223V B/X5R*122000 ±10, ±20 3.5 0.5±0.05 R 200%
TMK105 BJ333V B/X5R*133000 ±10, ±20 3.5 0.5±0.05 R 150%
TMK105 BJ473V B/X5R*147000 ±10, ±20 3.5 0.5±0.05 R 150%
TMK105 BJ104V B/X5R 100000 ±10, ±20 5 0.5±0.05 R 150%
16V EMK105 BJ153V B/X5R*115000 ±10, ±20 3.5 0.5±0.05 R 200%
EMK105 BJ223V B/X5R*122000 ±10, ±20 3.5 0.5±0.05 R 200%
EMK105 BJ333V B/X5R*133000 ±10, ±20 3.5 0.5±0.05 R 200%
EMK105 BJ473V B/X5R*147000 ±10, ±20 3.5 0.5±0.05 R 200%
EMK105 BJ683V B/X5R 68000 ±10, ±20 5 0.5±0.05 R 200%
EMK105 BJ104V B/X5R*1100000 ±10, ±20 5 0.5±0.05 R 150%
EMK105 BJ224V B/X5R 220000 ±10, ±20 5 0.5±0.05 R 150%
EMK105 BJ105V X5R 1000000 ±10, ±20 10 0.5±0.05 R 150%
10V LMK105 BJ104V B/X5R 100000 ±10, ±20 5 0.5±0.05 R 200%
LMK105 BJ224V B/X5R 220000 ±10, ±20 5 0.5±0.05 R 150%
LMK105 BJ474V X5R 470000 ±10, ±20 10 0.5±0.05 R 150%
LMK105 BJ105V X5R 1000000 ±10, ±20 10 0.5±0.05 R 150%
6.3V JMK105 BJ224V B/X5R 220000 ±10, ±20 5 0.5±0.05 R 150%
JMK105 BJ474V X5R 470000 ±10, ±20 10 0.5±0.05 R 150%
JMK105 BJ105V X5R 1000000 ±10, ±20 10 0.5±0.05 R 150%
JMK105 BJ225MV X5R 2200000 ±20 10 0.5±0.05 R 150%
JMK105 BJ475MV JMK105BBJ475MV X5R 4700000 ±20 10 0.50.15/0.05 R 150% D
4V AMK105 BJ335MV X5R 3300000 ±20 10 0.5±0.05 R 150% *2
AMK105 BJ475MV AMK105ABJ475MV X5R 4700000 ±20 10 0.5±0.1 R 150%
Capacitance tolerance code is applied to of part number.
*1 We may provide X7R for some items according to the individual specification.
*2 The exchange of individual specification is necessary depending on the application and circuit condition. Please contact Taiyo Yuden sales channels.
19
11
CAPACITORS
mlcc03_e-01
REPRESENTATIVE PART NUMBERS
This catalog contains the typical specication only due to the limitation of space. When you consider the purchase of our products, please check our specification.
For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) or CD catalogs.
Temperature Characteristic B7:X7R
Temperature Characteristic F:Y5V
0.3mm thicknessP
0.2mm thicknessC
Rated
voltage Part number 1 Part number 2 Temp.
char.
Capacitance
pF
Capacitance
tolerance
tanδ
%
Thickness
mm
Soldering
R:Reflow
W:Wave
HALT Internal
code
P/N 1
Note
% Rated
voltage
25V TMK105 BJ103P B/X5R 10000 ±10, ±20 5 0.3±0.03 R 150%
TMK105 BJ104P X5R 100000 ±10, ±20 10 0.3±0.03 R 150%
TMK105 BJ224P X5R 220000 ±10, ±20 10 0.3±0.03 R 150%
16V EMK105 BJ474P X5R 470000 ±10, ±20 10 0.3±0.03 R 150%
6.3V JMK105 BJ105P X5R 1000000 ±10, ±20 10 0.3±0.03 R 150%
Rated
voltage Part number 1 Part number 2 Temp.
char.
Capacitance
pF
Capacitance
tolerance
tanδ
%
Thickness
mm
Soldering
R:Reflow
W:Wave
HALT Internal
code
P/N 1
Note
% Rated
voltage
10V LMK105 BJ104C X5R 100000 ±10, ±20 10 0.2±0.02 R 150%
6.3V JMK105 BJ224C X5R 220000 ±10, ±20 10 0.2±0.02 R 150%
JMK105 BJ474C X5R 470000 ±10, ±20 10 0.2±0.02 R 150%
Capacitance tolerance code is applied to of part number.
Rated
voltage Part number 1 Part number 2 Temp.
char.
Capacitance
pF
Capacitance
tolerance
tanδ
%
Thickness
mm
Soldering
R:Reflow
W:Wave
HALT Internal
code
P/N 1
Note
% Rated
voltage
50V UMK105 B7221V X7R 220±10, ±20 2.5 0.5±0.05 R 200%
UMK105 B7331V X7R 330±10, ±20 2.5 0.5±0.05 R 200%
UMK105 B7471V X7R 470±10, ±20 2.5 0.5±0.05 R 200%
UMK105 B7681V X7R 680±10, ±20 2.5 0.5±0.05 R 200%
UMK105 B7102V X7R 1000 ±10, ±20 2.5 0.5±0.05 R 200%
UMK105 B7152V X7R 1500 ±10, ±20 2.5 0.5±0.05 R 200%
UMK105 B7222V X7R 2200 ±10, ±20 2.5 0.5±0.05 R 200%
UMK105 B7332V X7R 3300 ±10, ±20 2.5 0.5±0.05 R 200%
UMK105 B7472V X7R 4700 ±10, ±20 2.5 0.5±0.05 R 150%
UMK105 B7682V X7R 6800 ±10, ±20 2.5 0.5±0.05 R 150%
UMK105 B7103V X7R 10000 ±10, ±20 3.5 0.5±0.05 R 150%
25V TMK105 B7152V X7R 1500 ±10, ±20 2.5 0.5±0.05 R 200%
TMK105 B7222V X7R 2200 ±10, ±20 2.5 0.5±0.05 R 200%
TMK105 B7332V X7R 3300 ±10, ±20 2.5 0.5±0.05 R 200%
TMK105 B7472V X7R 4700 ±10, ±20 2.5 0.5±0.05 R 200%
TMK105 B7682V X7R 6800 ±10, ±20 2.5 0.5±0.05 R 200%
TMK105 B7103V X7R 10000 ±10, ±20 3.5 0.5±0.05 R 200%
16V EMK105 B7223V X7R 22000 ±10, ±20 3.5 0.5±0.05 R 200%
EMK105 B7473V X7R 47000 ±10, ±20 3.5 0.5±0.05 R 200%
EMK105 B7104V X7R 100000 ±10, ±20 5 0.5±0.05 R 150%
10V LMK105 B7223V X7R 22000 ±10, ±20 3.5 0.5±0.05 R 200%
LMK105 B7473V X7R 47000 ±10, ±20 3.5 0.5±0.05 R 200%
LMK105 B7104V X7R 100000 ±10, ±20 5 0.5±0.05 R 150%
6.3V JMK105 B7224V X7R 220000 ±10, ±20 5 0.5±0.05 R 150%
Capacitance tolerance code is applied to of part number.
Rated
voltage Part number 1 Part number 2 Temp.
char.
Capacitance
pF
Capacitance
tolerance
tanδ
%
Thickness
mm
Soldering
R:Reflow
W:Wave
HALT Internal
code
P/N 1
Note
% Rated
voltage
50V UMK105 F103ZV F/Y5V 10000 80/20 5 0.5±0.05 R 200%
25V TMK105 F223ZV F/Y5V 22000 80/20 5 0.5±0.05 R 200%
16V EMK105 F473ZV F/Y5V 47000 80/20 7 0.5±0.05 R 200%
EMK105 F104ZV F/Y5V 100000 80/20 9 0.5±0.05 R 200%
10V LMK105 F224ZV F/Y5V 220000 80/20 11 0.5±0.05 R 200%
6.3V JMK105 F474ZV F/Y5V 470000 80/20 12.5 0.5±0.05 R 200%
JMK105 F105ZV F/Y5V 1000000 80/20 20 0.5±0.05 R 150%
11
mlcc_pack-P1 mlcc_pack_e-01
PACKAGING
This catalog contains the typical specication only due to the limitation of space. When you consider the purchase of our products, please check our specification.
For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) or CD catalogs.
Taped package
Minimum Quantity
Taping material
No bottom tape for pressed carrier tape
Representative taping dimensions
 ◦Paper Tape8mm wide
 Pressed carrier tape 2mm pitch
T1
0.1/−0
Paper tape
Embossed tape
Type Chip Cavity Insertion Pitch Tape Thickness
A B F T
MK107
WK107 1.0 1.8
4.0±0.1
1.1max.
2K110 1.15 1.55 1.0max.
MK212
WK212 1.65 2.4 1.1max.4K212
2K212
MK316 2.0 3.6
Type Chip Cavity Insertion Pitch Tape Thickness
A B F T
2K096 0.72 1.02
52.0±0.05
0.45max.
0.6max.
MK105
VK105 0.65 1.15 0.8max.
0.1/−0
0.1/−0
Punched carrier tape 4mm pitch
Punched carrier tape 2mm pitch
Chip filled
Type
Thickness Standard quantity [pcs]
mm code Paper tape Embossed
tape
MK042
0.2 C 40000
MK063 0.3 P,T 15000
2K096 0.3 P
10000
0.45 K
WK105 0.3 P
0.5 V
MK105
0.2 C 20000
0.3 P 15000
0.5 V, W 10000
VK105 0.5 W
MK107
WK107
0.45 K 4000
0.5 V 4000
0.8 A
4000
2K110
0.5 V
0.6 B
0.8 A
MK212
WK212
0.45 K
0.85 D
1.25 G 3000
4K212 0.85 D
4000 2K212 0.85 D
MK316
0.85 D
1.15 F
3000
1.25 G
1.6 L
2000
MK325
0.85 D
1.15 F
1.9 N
2.0max Y
2.5 M
500T, 1000P
MK432 2.5 M 500
Type Chip Cavity
Insertion Pitch
Tape Thickness
T1
MK063 0.37 0.67
2.0±0.05
0.45max. 0.42max.
WK105 0.65 1.15 0.45max. 0.42max.
Unitmm
Unitmm
Unitmm
11
mlcc_pack-P2
mlcc_pack_e-01
PACKAGING
This catalog contains the typical specication only due to the limitation of space. When you consider the purchase of our products, please check our specification.
For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) or CD catalogs.
Embossed tape8mm wide
Embossed tape12mm wide
Type Chip Cavity
Insertion Pitch
Tape Thickness
A B F K T
WK107 1.0 1.8
4.0±0.1
1.3max 0.25±0.1
MK212 1.65 2.4
3.4max. 0.6max.MK316 2.0 3.6
MK325 2.8 3.6
Trailer and Leader
Trailer 160mm min.
Leader 400mm min.
100mm or more
Reel size
Top Tape Strength
The top tape requires a peel-off force of 0.1 to 0.7N in the direction of the arrow
as illustrated below.
The exchange of individual specification is necessary.
Please contact Taiyo Yuden sales channels.
0.1/−0
0.1/−0
2.0±0.1
F
0.2/0
0/0.2
12.0±0.1
8.8±0.1
6.8±0.1
1.00/0.1 2.00/0.1 1.50.1/0
Unitmm
Bulk Cassette
1.0±0.02
0.8±0.04 0.9±0.05
1.8±0.02
4.0±0.05
2.0±0.04
Embossed tape4mm wide
Type Chip Cavity
Insertion Pitch
Tape Thickness
A B F K T
MK042 0.23 0.43 1.0±0.02 0.5max. 0.25max.
A B C
φ178±2.0 φ50min.
φ13.0±0.2
D E R
φ21.0±0.8 2.0±0.5
1.0
t W
4mm wide tape 1.5max.
5±1.0
8mm wide tape 2.5max.
10±1.5
12mm wide tape 2.5max.
14±1.5
Unitmm
Unitmm
Unitmm
Type Chip Cavity
Insertion Pitch
Tape Thickness
A B F K T
MK432 3.7 4.9 8.0±0.1 4.0max. 0.6max.
Unitmm
E
W
C
RDB
t
A
E
W
C
RDB
t
A
11
mlcc_reli-R1 mlcc_reli_e-01
RELIABILITY DATA
This catalog contains the typical specication only due to the limitation of space. When you consider the purchase of our products, please check our specification.
For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) or CD catalogs.
7. Q or Dissipation Factor
Specified
Value
Temperature Compensating
Class 1
Standard C30 pFQ40020CC30 pFQ1000 
CNominal capacitance
High Frequency Type Refer to detailed specification
High PermittivityClass 2 Note 1 BJ, B7, C6,C72.5 max., F7 max.
Test Methods and Remarks
High Frequency Type
Measuring equipment: HP4291A
Measuring jig: HP16192A
Class 1 Class 2
Standard High Frequency Type C10μF C10μF
Preconditioning None Thermal treatment at 150 for 1hr Note 2
Measuring frequency 1Hz±101GHz 1Hz±10120±10Hz
Measuring voltage Note 1 0.5 to 5Vrms 1±0.2Vrms 0.5±0.1Vrms
Bias application None
6. Capacitance Tolerance
Specified
Value
Temperature Compensating
Class 1
StandardC
U
0.5pFC5pF±0.25pF
0.5pF<C10pF±0.5pF
C10pF±5%  
RH
S
T
0.5pFC2pF±0.1pF
C2pF±5%
High Frequency Type CH
RH
0.5pFC2pF±0.1pF
C2pF±5%
High Permittivity Class 2BJ, B7, C6,C7±10 or ±20, F2080
Test Methods and Remarks
Class 1 Class 2
Standard High Frequency Type C10μF C10μF
Preconditioning None Thermal treatment at 150 for 1hr Note 2
Measuring frequency 1Hz±101Hz±10120±10Hz
Measuring voltage Note 1 0.5 to 5Vrms 1±0.2Vrms 0.5±0.1Vrms
Bias application None
5. Insulation Resistance
Specified
Value
Temperature Compensating
Class 1
Standard 10000 MΩ min.
High Frequency Type
High Permittivity Class 2 Note 1 C0.047μF : 10000 MΩ min.
C0.047μF : 500MΩ
μF
Test Methods and Remarks
Applied voltage: Rated voltage
Duration: 60±5 sec.
Charge/discharge current: 50mA max.
4. Withstanding VoltageBetween terminals
Specified
Value
Temperature Compensating
Class 1
Standard
No breakdown or damage
High Frequency Type
High PermittivityClass 2
Test Methods and Remarks
Class 1 Class 2
Applied voltage Rated voltage×3 Rated voltage×2.5
Duration 1 to 5 sec.
Charge/discharge current 50mA max.
3. Rated Voltage
Specified
Value
Temperature Compensating
Class 1
Standard 50VDC, 25VDC, 16VDC
High Frequency Type 50VDC, 16VDC
High Permittivity Class 250VDC, 35VDC, 25VDC, 16VDC, 10VDC, 6.3VDC, 4VDC
2. Storage Conditions
Specified
Value
Temperature Compensating
Class 1
Standard 55 to 125
High Frequency Type
High Permittivity Class 2
Specification Temperature Range
BJ B25 to 85
X5R 55 to 85
B7 X7R 55 to 125
C6 X6S 55 to 105
C7 X7S 55 to 125
FF25 to 85
Y5V 30 to 85
1.Operating Temperature Range
Specified
Value
Temperature Compensating
Class 1
Standard 55 to 125
High Frequency Type
High Permittivity Class 2
Specification Temperature Range
BJ B25 to 85
X5R 55 to 85
B7 X7R 55 to 125
C6 X6S 55 to 105
C7 X7S 55 to 125
FF25 to 85
Y5V 30 to 85
Multilayer Ceramic Capacitors
Super Low Distortion Multilayer Ceramic Capacitors and Medium-High
Voltage Multilayer Ceramic Capacitors are noted separately.
11
mlcc_reli-R2
mlcc_reli_e-01
RELIABILITY DATA
This catalog contains the typical specication only due to the limitation of space. When you consider the purchase of our products, please check our specification.
For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) or CD catalogs.
8. Temperature CharacteristicWithout voltage application
Specified
Value
Temperature Compensating
Class 1
Standard
Temperature Characteristic ppm/℃] Tolerance
C 0 CH, CJ, CK
H±60
J±120
K±250
R 220 RH
S 330 SH, SJ, SK
T 470 TJ, TK
U 750 UJ, UK
SL 350 to 1000
High Frequency Type
High Permittivity Class 2
Specification Capacitance change Reference temperature Temperature Range
BJ B±1020 25 to 85
X5R ±1525 55 to 85
B7 X7R ±1525 55 to 125
C6 X6S ±2225 55 to 105
C7 X7S ±2225 55 to 125
FF30/8020 25 to 85
Y5V 22/8225 30 to 85
Test Methods and Remarks
Class 1
Capacitance at 20 and 85 shall be measured in thermal equilibrium, and the temperature characteristic shall be calculated from the following equation.
C85C20 × 106
ppm/℃)
C20×T           △T65
Class 2
Capacitance at each step shall be measured in thermal equilibrium, and the temperature characteristic shall be calculated from the following equation.
CC2 ×100(%
C2
C Capacitance in Step 1 or Step 3
C2 Capacitance in Step 2
Step BF X5RX7RX6SX7SY5V
1 Minimum operating temperature
2 2025
3 Maximum operating temperature
9. Deflection
Specified
Value
Temperature Compensating
Class 1
Standard Appearance : No abnormality
Capacitance change : Within ±5% or ±0.5 pF, whichever is larger.
High Frequency Type Appearance : No abnormality
Capacitance change : Within±0.5 pF
High Permittivity Class 2Appearance : No abnormality
Capacitance change : Within ±12.5%BJ, B7, C6, C7, Within ±30%F
Test Methods and Remarks
Multilayer Ceramic Capacitors
Board Thickness Warp Duration
042063 Type glass epoxy-resin substrate 0.8mm 1mm 10 sec.
The other types 1.6mm
Array Type
Board Thickness Warp Duration
096110212 Type glass epoxy-resin substrate 1.6mm 1mm 10 sec.
Board Warp
Capacitance measurement shall
be conducted with the board bent
10. Body Strength
Specified
Value
Temperature Compensating
Class 1
Standard
High Frequency Type No mechanical damage.
High Permittivity Class 2
Test Methods and Remarks
High Frequency Type
Applied force: 5N
Duration: 10 sec.
A
A
A
11. Adhesive Strength of Terminal Electrodes
Specified
Value
Temperature Compensating
Class 1
Standard
No terminal separation or its indication.High Frequency Type
High Permittivity Class 2
Test Methods and Remarks
Multilayer Ceramic Capacitors Array Type
Applied force Duration
042063 Type 2N 30±5 sec.
105 Type or more 5N
Applied force Duration
096 Type 2N 30±5 sec.
110212 Type 5N
12. Solderability
Specified
Value
Temperature Compensating
Class 1
Standard
At least 95% of terminal electrode is covered by new solder.High Frequency Type
High Permittivity Class 2
Test Methods and Remarks
Solder type Solder temperature Duration
Eutectic solder H60A or H63A 230±54±1 sec.
Lead-free solder Sn-3.0Ag0.5Cu 245±3
11
mlcc_reli-R3 mlcc_reli_e-01
RELIABILITY DATA
This catalog contains the typical specication only due to the limitation of space. When you consider the purchase of our products, please check our specification.
For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) or CD catalogs.
13. Resistance to Soldering
Specified
Value
Temperature Compensating
Class 1
Standard
Appearance: No abnormality
Capacitance change: Within ±2.5% or ±0.25pF, whichever is larger.
Q: Initial value
Insulation resistance: Initial value
Withstanding voltage between terminals: No abnormality
High Frequency Type
Appearance: No abnormality
Capacitance change: Within ±2.5%
Q: Initial value
Insulation resistance: Initial value
Withstanding voltage between terminals: No abnormality
High Permittivity Class 2 Note 1
Appearance: No abnormality
Capacitance change: Within ±7.5% BJ, B7, C6, C7
Within ±20% F
Dissipation factor: Initial value
Insulation resistance: Initial value
Withstanding voltage between terminals: No abnormality
Test Methods and Remarks
Class 1
042, 063 Type 105 Type
Array096, 110 Type
Preconditioning None
Preheating 150, 1 to 2 min. 80 to 100, 2 to 5 min.
150 to 200, 2 to 5 min.
Solder temp. 270±5
Duration 3±0.5 sec.
Recovery 6 to 24 hrs Standard condition Note 5  
Class 2
042063 Type 105, 107, 212 Type
Array096, 110,212 Type 316, 325 Type
Preconditioning Thermal treatment at 150 for 1 hr Note 2
Preheating 150, 1 to 2 min. 80 to 100, 2 to 5 min.
150 to 200, 2 to 5 min.
80 to 100, 5 to 10 min.
150 to 200, 5 to 10 min.
Solder temp. 270±5
Duration 3±0.5 sec.
Recovery 24±2 hrs Standard condition Note 5
14. Temperature Cycle (Thermal Shock
Specified
Value
Temperature Compensating
Class 1
Standard
Appearance: No abnormality
Capacitance change: Within ±2.5% or ±0.25pF, whichever is larger.
Q: Initial value
Insulation resistance: Initial value
Withstanding voltage between terminals: No abnormality
High Frequency Type
Appearance: No abnormality
Capacitance change: Within ±0.25pF
Q: Initial value
Insulation resistance: Initial value
Withstanding voltage between terminals: No abnormality
High Permittivity Class 2 Note 1
Appearance: No abnormality
Capacitance change: Within ±7.5% BJ, B7, C6, C7
Within ±20% F
Dissipation factor: Initial value
Insulation resistance: Initial value
Withstanding voltage between terminals: No abnormality
Test Methods and Remarks
Class 1 Class 2
Preconditioning None Thermal treatment at 150 for 1 hr Note 2
1 cycle
Step Temperature(℃ Timemin.
1 Lowest operating temperature 0/3 30±3
2 Normal temperature 2 to 3
3 Highest operating temperature 0/3 30±3
4 Normal temperature 2 to 3
Number of cycles 5 times
Recovery 6 to 24 hrs Standard condition Note 5 24±2 hrs Standard condition Note 5
15. Humidity Steady State
Specified
Value
Temperature Compensating
Class 1
Standard
Appearance: No abnormality
Capacitance change: Within ±5% or ±0.5pF, whichever is larger.
Q C10pF Q20010C 
10C30pF Q2752.5C
C30pF Q350 CNominal capacitance
Insulation resistance: 1000 MΩ min.
High Frequency Type
Appearance: No abnormality
Capacitance change: Within ±0.5pF
,
Insulation resistance: 1000 MΩ min.
High Permittivity Class 2 Note 1
Appearance: No abnormality
Capacitance change: Within ±12.5%BJ, B7, C6, C7
Within ±30%F
Dissipation factor 5.0% max. BJ, B7, C6, C7
11.0% max.F
Insulation resistance: 50 MΩμF or 1000 MΩ whichever is smaller.
Test Methods and Remarks
Class 1
Standard High Frequency Type
Preconditioning None
Temperature 40±260±2
Humidity 90 to 95RH
Duration 50024/0 hrs
Recovery 6 to 24 hrs Standard condition Note 5  
Class 2
All items
Preconditioning Thermal treatment at 150 for 1 hr Note 2
Temperature 40±2
Humidity 90 to 95RH
Duration 50024/0 hrs
Recovery 24±2 hrs Standard condition Note 5
11
mlcc_reli-R4
mlcc_reli_e-01
RELIABILITY DATA
This catalog contains the typical specication only due to the limitation of space. When you consider the purchase of our products, please check our specification.
For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) or CD catalogs.
16. Humidity Loading
Specified
Value
Temperature Compensating
Class 1
Standard
Appearance: No abnormality
Capacitance change: Within ±7.5% or ±0.75pF, whichever is larger.
Q C30pFQ10010C/3
C30pFQ200 CNominal capacitance
Insulation resistance: 500 MΩ min.
High Frequency Type
Appearance: No abnormality
Capacitance change: C2pFWithin ±0.4 pF
C2pFWithin ±0.75 pF CNominal capacitance
Insulation resistance: 500 MΩ min.
High Permittivity Class 2 Note 1
Appearance: No abnormality
Capacitance change: Within ±12.5% BJ, B7, C6, C7
Within ±30%F
Dissipation factor 5.0% max. BJ, B7, C6, C7
11.0% max.F
Insulation resistance: 25 MΩμF or 500 MΩ, whichever is smaller.
Test Methods and Remarks
Class 1
Standard High Frequency Type
Preconditioning None
Temperature 40±260±2
Humidity 90 to 95RH
Duration 50024/0 hrs
Applied voltage Rated voltage
Charge/discharge current 50mA max.
Recovery 6 to 24 hrs Standard condition Note 5  
Class 2
All items
Preconditioning Voltage treatment
Rated voltage are applied for 1 hour at 40 Note 3
Temperature 40±2
Humidity 90 to 95RH
Duration 50024/0 hrs
Applied voltage Rated voltage
Charge/discharge current 50mA max.
Recovery 24±2 hrs Standard condition Note 5
17. High Temperature Loading
Specified
Value
Temperature Compensating
Class 1
Standard
Appearance: No abnormality
Capacitance change: Within ±3% or ±0.3pF, whichever is larger.
Q C10pF Q20010C
10C30pF Q2752.5C
C30pF Q350 CNominal capacitance
Insulation resistance: 1000 MΩ min.
High Frequency Type
Appearance: No abnormality
Capacitance change: Within ±3% or ±0.3pF
, whichever is larger.
Insulation resistance: 1000 MΩ min.
High Permittivity Class 2 Note 1
Appearance: No abnormality
Capacitance change: Within ±12.5%BJ, B7, C6, C7
Within ±30%F
Dissipation factor 5.0% max.BJ, B7, C6, C7
11.0% max.F
Insulation resistance: 50 MΩμF or 1000 MΩ, whichever is smaller.
Test Methods and Remarks
Class 1
Standard High Frequency Type
Preconditioning None
Temperature 125±3
Duration 100048/0 hrs
Applied voltage Rated voltage×2
Charge/discharge current 50mA max.
Recovery 6 to 24hr Standard condition Note 5  
Class 2
BJ, F C6 B7, C7
Preconditioning Voltage treatment Twice the rated voltage shall be
applied for 1 hour at 85, 105 or 125 Note 3, 4
Temperature 85±2105±3125±3
Duration 100048/0 hrs
Applied voltage Rated voltage×2 Note 4
Charge/discharge current 50mA max.
Recovery 24±2 hrs Standard condition Note 5
Note 1 The figures indicate typical specifications. Please refer to individual specifications in detail.
Note 2 Thermal treatment : Initial value shall be measured after test sample is heat-treated at 1500/10 for an hour and kept at room temperature for 24±2hours.
Note 3 Voltage treatment : Initial value shall be measured after test sample is voltage-treated for an hour at both the temperature and voltage specified in the test conditions, and
kept at room temperature for 24±2hours.
Note 4 Standard condition: Temperature: 5 to 35, Relative humidity: 45 to 85 % RH, Air pressure: 86 to 106kPa
When there are questions concerning measurement results, in order to provide correlation data, the test shall be conducted under the following condi-
tion.
Temperature: 20±2, Relative humidity: 60 to 70 % RH, Air pressure: 86 to 106kPa
Unless otherwise specified, all the tests are conducted under the "standard condition".
11
mlcc_prec-P1 mlcc_prec_e-01
PRECAUTIONS
This catalog contains the typical specication only due to the limitation of space. When you consider the purchase of our products, please check our specification.
For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) or CD catalogs.
1. Circuit Design
Precautions
Verification of operating environment, electrical rating and performance
1. A malfunction of equipment in fields such as medical, aerospace, nuclear control, etc. may cause serious harm to human life or have severe social ramifications.
Therefore, any capacitors to be used in such equipment may require higher safety and reliability, and shall be clearly differentiated from them used in general pur-
pose applications.
Operating Voltage Verification of Rated voltage
1.
The operating voltage for capacitors must always be their rated voltage or less.
If an AC voltage is loaded on a DC voltage, the sum of the two peak voltages shall be the rated voltage or less.
For a circuit where an AC or a pulse voltage may be used, the sum of their peak voltages shall also be the rated voltage or less.
2.
Even if an applied voltage is the rated voltage or less reliability of capacitors may be deteriorated in case that either a high frequency AC voltage or a pulse voltage
having rapid rise time is used in a circuit.
2. PCB Design
Precautions
Pattern configurations Design of Land-patterns
1. When capacitors are mounted on PCBs, the amount of solder used size of fillet can directly affect the capacitor performance. Therefore, the following items must
be carefully considered in the design of land patterns:
1Excessive solder applied can cause mechanical stresses which lead to chip breaking or cracking. Therefore, please consider appropriate land-patterns for proper
amount of solder.
2When more than one component are jointly soldered onto the same land, each component's soldering point shall be separated by solder-resist.
Pattern configurationsCapacitor layout on PCBs
After capacitors are mounted on boards, they can be subjected to mechanical stresses in subsequent manufacturing processes PCB cutting, board inspection,
mounting of additional parts, assembly into the chassis, wave soldering of the boards, etc.. For this reason, land pattern configurations and positions of capacitors
shall be carefully considered to minimize stresses.
Technical
consider-
ations
Pattern configurations Design of Land-patterns
The following diagrams and tables show some examples of recommended land patterns to prevent excessive solder amounts.
1Recommended land dimensions for typical chip capacitors
Multilayer Ceramic Capacitors : Recommended land dimensions unit: mm
 Wave-soldering Land patterns for PCBs
Type 107 212 316 325
Size L 1.6 2.0 3.2 3.2
W 0.8 51.25 1.6 2.5
A 0.8 to 1.0 1.0 to 1.4 1.8 to 2.5 1.8 to 2.5
B 0.5 to 0.8 0.8 to 1.5 0.8 to 1.7 0.8 to 1.7
C 0.6 to 0.8 0.9 to 1.2 1.2 to 1.6 1.8 to 2.5
Solder-resist
Chip capacitor
L
L
W
B
C
B
A
W
LWDC
Land
Chip capacitor
Reflow-soldering
Type 042 063 105 107 212 316 325 432
Size L 0.4 0.6 1.0 1.6 2.0 3.2 3.2 4.5
W 0.2 0.3 0.5 0.8 51.25 1.6 2.5 3.2
A
0.15 to 0.25 0.20 to 0.30 0.45 to 0.55
0.8 to 1.0 0.8 to 1.2 1.8 to 2.5 1.8 to 2.5 2.5 to 3.5
B
0.15 to 0.20 0.20 to 0.30 0.40 to 0.50
0.6 to 0.8 0.8 to 1.2 1.0 to 1.5 1.0 to 1.5 1.5 to 1.8
C
0.15 to 0.30 0.25 to 0.40 0.45 to 0.55
0.6 to 0.8 0.9 to 1.6 1.2 to 2.0 1.8 to 3.2 2.3 to 3.5
LWDC: Recommended land dimensions for reflow-solderingunit: mm
Type 105 107 212
Size L 0.52 50.8 1.25
W 1.0 1.6 2.0
A 0.18 to 0.22 0.25 to 0.3 0.5 to 0.7
B 0.2 to 0.25 0.3 to 0.4 0.4 to 0.5
C 0.9 to 1.1 1.5 to 1.7 1.9 to 2.1
Array type: Recommended land dimensions for reflow-soldering unit: mm
2 circuits 4 circuits
Type 0962 circuits1102 circuits2122 circuits2124 circuits
Size L 0.9 1.37 2.0 2.0
W 0.6 1.0 1.25 1.25
a 0.25 to 0.35 0.35 to 0.45 0.5 to 0.6 0.5 to 0.6
b 0.15 to 0.25 0.55 to 0.65 0.5 to 0.6 0.5 to 0.6
c 0.15 to 0.25 0.3 to 0.4 0.5 to 0.6 0.2 to 0.3
d 0.45 0.64 1.0 0.5
Chip capacitor
a
a
b
d
c
Land
c
d
a
a
b
2Examples of good and bad solder application
Items Not recommended Recommended
Mixed mounting of
SMD and leaded
components
Component
placement close to
the chassis
Hand-soldering
of leaded
components
near mounted
components
Horizontal
component
placement
Precautions on the use of Multilayer Ceramic Capacitors
To next page
11
mlcc_prec-P2
mlcc_prec_e-01
PRECAUTIONS
This catalog contains the typical specication only due to the limitation of space. When you consider the purchase of our products, please check our specification.
For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) or CD catalogs.
Precautions on the use of Multilayer Ceramic Capacitors
2. PCB Design
Technical
consider-
ations
Pattern configurationsCapacitor layout on PCBs
1-1. The following is examples of good and bad capacitor layouts ; capacitors shall be located to minimize any possible mechanical stresses from board warp or de-
flection.
Items Not recommended Recommended
Deflection of board
1-2. The amount of mechanical stresses given will vary depending on capacitor layout. Please refer to diagram below.
1-3. When PCB is split, the amount of mechanical stress on the capacitors can vary according to the method used. The following methods are listed in order from
least stressful to most stressful: push-back, slit, V-grooving, and perforation. Thus, please consider the PCB, split methods as well as chip location.
3. Mounting
Precautions
Adjustment of mounting machine
1. When capacitors are mounted on PCB, excessive impact load shall not be imposed on them.
2.Maintenance and inspection of mounting machines shall be conducted periodically.
Selection of Adhesives
1. When chips are attached on PCBs with adhesives prior to soldering, it may cause capacitor characteristics degradation unless the following factors are appro-
priately checked : size of land patterns, type of adhesive, amount applied, hardening temperature and hardening period. Therefore, please contact us for further
information.
Technical
consider-
ations
Adjustment of mounting machine
1. When the bottom dead center of a pick-up nozzle is too low, excessive force is imposed on capacitors and causes damages. To avoid this, the following points
shall be considerable.
1 The bottom dead center of the pick-up nozzle shall be adjusted to the surface level of PCB without the board deflection.
2 The pressure of nozzle shall be adjusted between 1 and 3 N static loads.
3 To reduce the amount of deflection of the board caused by impact of the pick-up nozzle, supporting pins or back-up pins shall be used on the other side of the
PCB. The following diagrams show some typical examples of good and bad pick-up nozzle placement:
Items Not recommended Recommended
Single-sided
mounting
Double-sided
mounting
2. As the alignment pin is worn out, adjustment of the nozzle height can cause chipping or cracking of capacitors because of mechanical impact on the capacitors.
To avoid this, the monitoring of the width between the alignment pins in the stopped position, maintenance, check and replacement of the pin shall be conducted
periodically.
Selection of Adhesives
Some adhesives may cause IR deterioration. The different shrinkage percentage of between the adhesive and the capacitors may result in stresses on the capaci-
tors and lead to cracking. Moreover, too little or too much adhesive applied to the board may adversely affect components. Therefore, the following precautions
shall be noted in the application of adhesives.
1Required adhesive characteristics
a. The adhesive shall be strong enough to hold parts on the board during the mounting & solder process.
b. The adhesive shall have sufficient strength at high temperatures.
c. The adhesive shall have good coating and thickness consistency.
d. The adhesive shall be used during its prescribed shelf life.
e. The adhesive shall harden rapidly.
f . The adhesive shall have corrosion resistance.
g. The adhesive shall have excellent insulation characteristics.
h. The adhesive shall have no emission of toxic gasses and no effect on the human body.
2The recommended amount of adhesives is as follows;
Recommended condition
Figure 212/316 case sizes as examples
a 0.3mm min
b 100 to 120 μm
c Adhesives shall not contact land   
11
mlcc_prec-P3 mlcc_prec_e-01
PRECAUTIONS
This catalog contains the typical specication only due to the limitation of space. When you consider the purchase of our products, please check our specification.
For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) or CD catalogs.
Precautions on the use of Multilayer Ceramic Capacitors
4. Soldering
Precautions
Selection of Flux
Since flux may have a significant effect on the performance of capacitors, it is necessary to verify the following conditions prior to use;
1Flux used shall be less than or equal to 0.1 wt% in CI equivalent of halogenated content. Flux having a strong acidity content shall not be applied.
2When shall capacitors are soldered on boards, the amount of flux applied shall be controlled at the optimum level.
3When water-soluble flux is used, special care shall be taken to properly clean the boards.
Soldering
Temperature, time, amount of solder, etc. shall be set in accordance with their recommended conditions.
Sn-Zn solder paste can adversely affect MLCC reliability.
Please contact us prior to usage of Sn-Zn solder.
Technical
consider-
ations
Selection of Flux
1-1. When too much halogenated substance Chlorine, etc. content is used to activate ux, or highly acidic ux is used, it may lead to corrosion of terminal elec-Chlorine, etc. content is used to activate ux, or highly acidic ux is used, it may lead to corrosion of terminal elec-Chlorine, etc. content is used to activate ux, or highly acidic ux is used, it may lead to corrosion of terminal elec- content is used to activate ux, or highly acidic ux is used, it may lead to corrosion of terminal elec- content is used to activate flux, or highly acidic flux is used, it may lead to corrosion of terminal elec-
trodes or degradation of insulation resistance on the surfaces of the capacitors.
1-2. Flux is used to increase solderability in wave soldering. However if too much flux is applied, a large amount of flux gas may be emitted and may adversely affect
the solderability. To minimize the amount of flux applied, it is recommended to use a flux-bubbling system.
1-3. Since the residue of water-soluble flux is easily dissolved in moisture in the air, the residues on the surfaces of capacitors in high humidity conditions may cause
a degradation of insulation resistance and reliability of the capacitors. Therefore, the cleaning methods and the capability of the machines used shall also be
considered carefully when water-soluble flux is used.
Soldering
Ceramic chip capacitors are susceptible to thermal shock when exposed to rapid or concentrated heating or rapid cooling.
Therefore, the soldering must be conducted with great care so as to prevent malfunction of the components due to excessive thermal shock.
Preheating : Capacitors shall be preheated sufficiently, and the temperature difference between the capacitors and solder shall be within 100 to 130.
Cooling : The temperature difference between the capacitors and cleaning process shall not be greater than 100.
Reflow soldering
Recommended conditions for eutectic soldering Recommended condition for Pb-free soldering
Temperature(℃)
0
100
200
300
230
Within 10 sec.
60sec.
Min.
60sec.
Min.
Slow cooling
Preheating
Temperature (℃)
0
100
200
300
Temperature (℃
0
100
200
300
Temperature (℃
Temperature (℃
0
100
200
300
Peak 260 Max.
Within 10sec.
Heating above
230
40sec. Max.
Slow
cooling
Preheating 150
60sec. Min.
230250
Within 3sec.
Preheating
120sec. Min.
Slow cooling
Peak 260 Max.
Within 10sec.
Slow
cooling
120sec. Min.
Preheating
150
0
100
200
300
400
230280
Within 3 sec.
Preheating
60sec. Min.
Slow cooling
Temperature (℃
0
100
200
300
400
Temperature (℃
0
100
200
300
400
Peak 350 Max.
Within 3sec.
Peak 280 Max.
Within 3sec.
Slow cooling Slow cooling
T
T
Preheating
150 Min.
60sec. Min.
Preheating
150 Min.
60sec. Min.
Caution
The ideal condition is to have solder mass fillet controlled to 1/2 to 1/3 of the thickness of a capacitor.
Capacitor
PC board
T
Solder
Because excessive dwell times can adversely affect solderability, soldering duration shall be kept as
close to recommended times as possible.
Wave soldering
Recommended conditions for eutectic soldering Recommended condition for Pb-free soldering
Temperature (℃
0
100
200
300
Temperature (℃)
0
100
200
300
Temperature (℃
Temperature (℃
0
100
200
300
Peak 260 Max.
Within 10sec.
Heating above
230
40sec. Max.
Slow
cooling
Preheating 150
60sec. Min.
230250
Within 3sec.
Preheating
120sec. Min.
Slow cooling
Peak 260 Max.
Within 10sec.
Slow
cooling
120sec. Min.
Preheating
150
0
100
200
300
400
230280
Within 3 sec.
Preheating
60sec. Min.
Slow cooling
Temperature (℃
0
100
200
300
400
Temperature (℃
0
100
200
300
400
Peak 350 Max.
Within 3sec.
Peak 280 Max.
Within 3sec.
Slow cooling Slow cooling
T
T
Preheating
150 Min.
60sec. Min.
Preheating
150 Min.
60sec. Min.
Temperature (℃
0
100
200
300
Temperature (℃
0
100
200
300
Temperature (℃)
Temperature (℃
0
100
200
300
Peak 260 Max.
Within 10sec.
Heating above
230
40sec. Max.
Slow
cooling
Preheating 150
60sec. Min.
230250
Within 3sec.
Preheating
120sec. Min.
Slow cooling
Peak 260 Max.
Within 10sec.
Slow
cooling
120sec. Min.
Preheating
150
0
100
200
300
400
230280
Within 3 sec.
Preheating
60sec. Min.
Slow cooling
Temperature (℃
0
100
200
300
400
Temperature (℃
0
100
200
300
400
Peak 350 Max.
Within 3sec.
Peak 280 Max.
Within 3sec.
Slow cooling Slow cooling
T
T
Preheating
150 Min.
60sec. Min.
Preheating
150 Min.
60sec. Min.
Caution
Wave soldering must not be applied to capacitors designated as for reflow soldering only.
Hand soldering
Recommended conditions for eutectic soldering Recommended condition for Pb-free soldering
Temperature (℃
0
100
200
300
Temperature (℃
0
100
200
300
Temperature (℃
Temperature (℃)
0
100
200
300
Peak 260 Max.
Within 10sec.
Heating above
230
40sec. Max.
Slow
cooling
Preheating 150
60sec. Min.
230250
Within 3sec.
Preheating
120sec. Min.
Slow cooling
Peak 260 Max.
Within 10sec.
Slow
cooling
120sec. Min.
Preheating
150
0
100
200
300
400
230280
Within 3 sec.
Preheating
60sec. Min.
Slow cooling
Temperature (℃
0
100
200
300
400
Temperature (℃
0
100
200
300
400
Peak 350 Max.
Within 3sec.
Peak 280 Max.
Within 3sec.
Slow cooling Slow cooling
T
T
Preheating
150 Min.
60sec. Min.
Preheating
150 Min.
60sec. Min.
Temperature (℃
0
100
200
300
Temperature (℃
0
100
200
300
Temperature (℃
Temperature (℃
0
100
200
300
Peak 260 Max.
Within 10sec.
Heating above
230
40sec. Max.
Slow
cooling
Preheating 150
60sec. Min.
230250
Within 3sec.
Preheating
120sec. Min.
Slow cooling
Peak 260 Max.
Within 10sec.
Slow
cooling
120sec. Min.
Preheating
150
0
100
200
300
400
230280
Within 3 sec.
Preheating
60sec. Min.
Slow cooling
Temperature (℃)
0
100
200
300
400
Temperature (℃
0
100
200
300
400
Peak 350 Max.
Within 3sec.
Peak 280 Max.
Within 3sec.
Slow cooling Slow cooling
T
T
Preheating
150 Min.
60sec. Min.
Preheating
150 Min.
60sec. Min.
Temperature (℃
0
100
200
300
Temperature (℃
0
100
200
300
Temperature (℃
Temperature (℃
0
100
200
300
Peak 260 Max.
Within 10sec.
Heating above
230
40sec. Max.
Slow
cooling
Preheating 150
60sec. Min.
230250
Within 3sec.
Preheating
120sec. Min.
Slow cooling
Peak 260 Max.
Within 10sec.
Slow
cooling
120sec. Min.
Preheating
150
0
100
200
300
400
230280
Within 3 sec.
Preheating
60sec. Min.
Slow cooling
Temperature (℃
0
100
200
300
400
Temperature (℃)
0
100
200
300
400
Peak 350 Max.
Within 3sec.
Peak 280 Max.
Within 3sec.
Slow cooling Slow cooling
T
T
Preheating
150 Min.
60sec. Min.
Preheating
150 Min.
60sec. Min.
T
316type or less
T150
T
325type or more
T130
Caution
Use a 50W soldering iron with a maximum tip diameter of 1.0 mm.
The soldering iron shall not directly touch capacitors.
11
mlcc_prec-P4
mlcc_prec_e-01
PRECAUTIONS
This catalog contains the typical specication only due to the limitation of space. When you consider the purchase of our products, please check our specification.
For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) or CD catalogs.
Precautions on the use of Multilayer Ceramic Capacitors
5. Cleaning
Precautions
Cleaning conditions
1. When PCBs are cleaned after capacitors mounting, please select the appropriate cleaning solution in accordance with the intended use of the cleaning.e.g. to
remove soldering flux or other materials from the production process.
2. Cleaning condition shall be determined after it is verified by using actual cleaning machine that the cleaning process does not affect capacitor's characteristics.
Technical
consider-
ations
1. The use of inappropriate cleaning solutions can cause foreign substances such as flux residue to adhere to capacitors or deteriorate their outer coating, resulting in
a degradation of the capacitor's electrical properties especially insulation resistance.
2. Inappropriate cleaning conditions insufficient or excessive cleaning may adversely affect the performance of the capacitors.
In the case of ultrasonic cleaning, too much power output can cause excessive vibration of PCBs which may lead to the cracking of capacitors or the soldered
portion, or decrease the terminal electrodes' strength. Therefore, the following conditions shall be carefully checked;
Ultrasonic output : 20 W/ or less
Ultrasonic frequency : 40 kHz or less
Ultrasonic washing period : 5 min. or less
6. Resin coating and mold
Precautions
1. With some type of resins, decomposition gas or chemical reaction vapor may remain inside the resin during the hardening period or while left under normal stor-
age conditions resulting in the deterioration of the capacitor's performance.
2. When a resin's hardening temperature is higher than capacitor's operating temperature, the stresses generated by the excessive heat may lead to damage or
destruction of capacitors.
The use of such resins, molding materials etc. is not recommended.
7. Handling
Precautions
Splitting of PCB
1. When PCBs are split after components mounting, care shall be taken so as not to give any stresses of deflection or twisting to the board.
2. Board separation shall not be done manually, but by using the appropriate devices.
Mechanical considerations
Be careful not to subject capacitors to excessive mechanical shocks.
1If ceramic capacitors are dropped onto a floor or a hard surface, they shall not be used.
2Please be careful that the mounted components do not come in contact with or bump against other boards or components.
8. Storage conditions
Precautions
Storage
1. To maintain the solderability of terminal electrodes and to keep packaging materials in good condition, care must be taken to control temperature and humidity in
the storage area. Humidity should especially be kept as low as possible.
Recommended conditions
Ambient temperature : Below 30
Humidity : Below 70% RH
The ambient temperature must be kept below 40. Even under ideal storage conditions, solderability of capacitor is deteriorated as time passes, so capaci-
tors shall be used within 6 months from the time of delivery.
Ceramic chip capacitors shall be kept where no chlorine or sulfur exists in the air.
2. The capacitance values of high dielectric constant capacitors will gradually decrease with the passage of time, o care shall be taken to design circuits . Even if
capacitance value decreases as time passes, it will get back to the initial value by a heat treatment at 150 for 1hour.
Technical
consider-
ations
If capacitors are stored in a high temperature and humidity environment, it might rapidly cause poor solderability due to terminal oxidation and quality loss of taping/
packaging materials. For this reason, capacitors shall be used within 6 months from the time of delivery. If exceeding the above period, please check solderability be-
fore using the capacitors.
RCR-2335BSafety Application Guide for fixed ceramic capacitors for use in electronic equipmentis published by JEITA.
 Please check the guide regarding precautions for deflection test, soldering by spot heat, and so on.