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MLCC Series HQ Catalog

Taiyo Yuden

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Notice for TAIYO YUDEN Products
[ For High Quality and/or Reliability Equipment
(Automotive / Industrial Equipment) ]
Please read this notice before using the TAIYO YUDEN products.
REMINDERS
Product information in this catalog is as of October 2017. 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
before practical application or use of our products.
Please note that TAIYO YUDEN shall not be in any way responsible for any damages and defects in products or
equipment incorporating our products, which are caused under the conditions other than those specified in this
catalog or individual product specification sheets.
Please contact TAIYO YUDEN for further details of product specifications as the individual product specification
sheets are available.
Please conduct validation and verification of our products in actual condition of mounting and operating
environment before using our products.
The products listed in this catalog are intended for use in general electronic equipment (e.g., AV equipment, OA
equipment, home electric appliances, office equipment, information and communication equipment), medical
equipment classified as Class I or II by IMDRF, industrial equipment, and automotive interior applications, etc.
Please be sure to contact TAIYO YUDEN for further information before using the products for any equipment which
may directly cause loss of human life or bodily injury (e.g., transportation equipment including, without limitation,
automotive powertrain control system, train control system, and ship control system, traffic signal equipment,
medical equipment classified as Class III by IMDRF).
Please do not incorporate our products into any equipment requiring high levels of safety and/or reliability (e.g.,
aerospace equipment, aviation equipment*, medical equipment classified as Class IV by IMDRF, nuclear control
equipment, undersea equipment, military equipment).
*Note: There is a possibility that our products can be used only for aviation equipment that does not directly affect the safe operation of aircraft (e.g.,
in-flight entertainment, cabin light, electric seat, cooking equipment) if such use meets requirements specified separately by TAIYO YUDEN.
Please be sure to contact TAIYO YUDEN for further information before using our products for such aviation equipment.
When our products are used even for high safety and/or reliability-required devices or circuits of general electronic
equipment, it is strongly recommended to perform a thorough safety evaluation prior to use of our products and to
install a protection circuit as necessary.
Please note that unless you obtain prior written consent of TAIYO YUDEN, TAIYO YUDEN shall not be in any way
responsible for any damages incurred by you or third parties arising from use of the products listed in this catalog
for any equipment requiring inquiry to TAIYO YUDEN or prohibited for use by TAIYO YUDEN as described above.
Information contained in this catalog is intended to convey examples of typical performances and/or applications
of our products and is not intended to make any warranty with respect to the intellectual property rights or any
other related rights of TAIYO YUDEN or any third parties nor grant any license under such rights.
Please note that the scope of warranty for our products is limited to the delivered our products themselves and
TAIYO YUDEN shall not be in any way responsible for any damages resulting from a fault or defect in our products.
Notwithstanding the foregoing, if there is a written agreement (e.g., supply and purchase agreement, quality
assurance agreement) signed by TAIYO YUDEN and your company, TAIYO YUDEN will warrant our products in
accordance with such agreement.
The contents of this catalog are applicable to our products which are purchased from our sales offices or
authorized distributors (hereinafter TAIYO YUDENs official sales channel ). Please note that the contents of this
catalog are not applicable to our products purchased from any seller other than TAIYO YUDENs official sales
channel.
Caution for Export
Some of our products listed in this catalog may require specific procedures for export according to U.S. Export
Administration Regulations , Foreign Exchange and Foreign Trade Control Law of Japan, and other applicable
regulations. Should you have any questions on this matter, please contact our sales staff.
hq_c_mlcc_e-E06R01
MULTILAYER CERAMIC CAPACITORS
PART NUMBER
J M K 3 1 6 B J 1 0 6 M L H T △=Blank space
①Rated voltage
Code Rated voltage[VDC]
A 4
J 6.3
L 10
E 16
T 25
G 35
U 50
H 100
Q 250
S 630
②Series name
Code Series name
M Multilayer ceramic capacitor
V Multilayer ceramic capacitor for high frequency
W LW reverse type multilayer capacitor
③End termination
Code End termination
K Plated
J Soft Termination
S Cu Internal Electrodes
F High Reliability Application
④Dimension(L×W)
Type Dimensions
(L×W)[mm] EIA(inch)
063 0.6 × 0.3 0201
105 1.0 × 0.5 0402
0.52× 1.0 0204
107 1.6 × 0.8 0603
0.8 × 1.6 0306
212 2.0 × 1.25 0805
1.25× 2.0 0508
316 3.2 × 1.6 1206
325 3.2 × 2.5 1210
432 4.5 × 3.2 1812
Note : ※LW reverse type(□WK) only
⑤Dimension tolerance
Code Type L[mm] W[mm] T[mm]
ALL Standard Standard Standard
A
063 0.6±0.05 0.3±0.05 0.3±0.05
105 1.0±0.10 0.5±0.10 0.5±0.10
107 1.6+0.15/-0.05 0.8+0.15/-0.05 0.8+0.15/-0.05
212 2.0+0.15/-0.05 1.25+0.15/-0.05 0.85±0.10
1.25+0.15/-0.05
316 3.2±0.20 1.6±0.20 1.6±0.20
325 3.2±0.30 2.5±0.30 2.5±0.30
B
105 1.0+0.15/-0.05 0.5+0.15/-0.05 0.5+0.15/-0.05
107 1.6+0.20/-0 0.8+0.20/-0 0.8+0.20/-0
212 2.0+0.20/-0 1.25+0.20/-0 0.85±0.10
1.25+0.20/-0
316 3.2±0.30 1.6±0.30 1.6±0.30
C
105 1.0+0.20/-0 0.5+0.20/-0 0.5+0.20/-0
107 1.6+0.25/-0 0.8+0.25/-0 0.8+0.25/-0
212 2.0+0.25/-0 1.25+0.25/-0 1.25+0.25/-0
K
212 2.0±0.15 1.25±0.15 0.85±0.15
316 3.2±0.20 1.6±0.20 1.15±0.20
1.6±0.20
325 3.2±0.50 2.5±0.30 2.5±0.30
Note: . STANDARD EXTERNAL DIMENSIONS = Blank space
⑥Temperature characteristics code
■High dielectric type
Code Applicable
standard
Temperature
range[℃] Ref. Temp.[℃] Capacitance change Capacitance
tolerance
Tolerance
code
BJ EIA X5R -55~+ 85 25 ±15% ±10% K
±20% M
C6 EIA X6S -55~+105 25 ±22% ±10% K
±20% M
B7 EIA X7R -55~+125 25 ±15% ±10% K
±20% M
C7 EIA X7S -55~+125 25 ±22% ±10% K
±20% M
D7 EIA X7T -55~+125 25 +22%/-33% ±10% K
±20% M
REFLOW
AEC-Q200
CERAMIC CAPACITORS
Thiscatalogcontainsthetypicalspecificationonlyduetothelimitationofspace.Whenyouconsiderthepurchaseofourproducts,pleasecheckourproductspecificationsheets.
 Fordetailsofeachproduct(characteristicsgraph,reliabilityinformation,precautionsforuse,andsoon),seeourwebsite(http://www.ty-top.com/).
MULTILAYER CERAMIC CAPACITORS
REFLOW
20
AEC- Q200
hq_c_mlcc_e-E06R01
■Temperature compensating type
Code Applicable
standard
Temperature
range[℃] Ref. Temp.[℃] Capacitance change Capacitance
tolerance
Tolerance
code
CG
JIS CG
-55~+125
20
0±30ppm/℃
±0.1pF B
±0.25pF C
±0.5pF D
EIA C0G 25
±1pF F
±2% G
±5% J
⑦Nominal capacitance
Code
(example) Nominal capacitance
0R5 0.5pF
010 1pF
100 10pF
101 100pF
102 1,000pF
103 0.01μF
104 0.1μF
105 1.0μF
106 10μF
107 100μF
Note : R=Decimal point
⑧Capacitance tolerance
Code Capacitance tolerance
B ±0.1pF
C ±0.25pF
D ±0.5pF
G ±2%
J ±5%
K ±10%
M ±20%
⑨Thickness
Code Thickness[mm]
P 0.3
T
V 0.5
C 0.7(107type or more)
A 0.8
D 0.85(212type or more)
F 1.15
G 1.25
L 1.6
N 1.9
M 2.5
⑩Special code
Code Special code
H MLCC for Industrial and Automotive
⑪Packaging
Code Packaging
F φ178mm Taping (2mm pitch)
R φ178mm Embossed Taping (4mm pitch)
T φ178mm Taping (4mm pitch)
P φ178mm Taping (4mm pitch, 1000 pcs/reel)
325 type(Thickness code M)
⑫Internal code
Code Internal code
Standard
CERAMIC CAPACITORS
Thiscatalogcontainsthetypicalspecificationonlyduetothelimitationofspace.Whenyouconsiderthepurchaseofourproducts,pleasecheckourproductspecificationsheets.
 Fordetailsofeachproduct(characteristicsgraph,reliabilityinformation,precautionsforuse,andsoon),seeourwebsite(http://www.ty-top.com/).
21
hq_c_mlcc_e-E06R01
STANDARD EXTERNAL DIMENSIONS
LW reverse type
Type( EIA ) Dimension [mm] (inch)
L W T *1 e
□MK063(0201) 0.6±0.03
(0.024±0.001)
0.3±0.03
(0.012±0.001)
0.3±0.03
(0.012±0.001) T 0.15±0.05
(0.006±0.002)
□MK105(0402)
□MF105(0402)
1.0±0.05
(0.039±0.002)
0.5±0.05
(0.020±0.002)
0.5±0.05
(0.020±0.002) V 0.25±0.10
(0.010±0.004)
□WK105(0204)※ 0.52±0.05
(0.020±0.002)
1.0±0.05
(0.039±0.002)
0.3±0.05
(0.012±0.002) P 0.18±0.08
(0.007±0.003)
□MK107(0603)
□MF107(0603)
1.6±0.10
(0.063±0.004)
0.8±0.10
(0.031±0.004)
0.8±0.10
(0.031±0.004) A 0.35±0.25
(0.014±0.010)
□MJ107(0603) 1.6±0.10
(0.063±0.004)
0.8±0.10
(0.031±0.004)
0.8±0.10
(0.031±0.004) A 0.35+0.3/-0.25
(0.014+0.012/-0.010)
□VS107(0603) 1.6±0.10
(0.063±0.004)
0.8±0.10
(0.031±0.004)
0.7±0.10
(0.028±0.004) C 0.35±0.25
(0.014±0.010)
□WK107(0306)※ 0.8±0.10
(0.031±0.004)
1.6±0.10
(0.063±0.004)
0.5±0.05
(0.020±0.002) V 0.25±0.15
(0.010±0.006)
□MK212(0805)
□MF212(0805)
2.0±0.10
(0.079±0.004)
1.25±0.10
(0.049±0.004)
0.85±0.10
(0.033±0.004) D 0.5±0.25
(0.020±0.010)
1.25±0.10
(0.049±0.004) G
□MJ212(0805) 2.0±0.10
(0.079±0.004)
1.25±0.10
(0.049±0.004)
0.85±0.10
(0.033±0.004) D 0.5+0.35/-0.25
(0.020+0.014/-0.010)
1.25±0.10
(0.049±0.004) G
□VS212(0805) 2.0±0.10
(0.079±0.004)
1.25±0.10
(0.049±0.004)
0.85±0.10
(0.033±0.004) D 0.5±0.25
(0.020±0.010)
□WK212(0508)※ 1.25±0.15
(0.049±0.006)
2.0±0.15
(0.079±0.006)
0.85±0.10
(0.033±0.004) D 0.3±0.2
(0.012±0.008)
□MK316(1206)
□MF316(1206)
3.2±0.15
(0.126±0.006)
1.6±0.15
(0.063±0.006)
1.15±0.10
(0.045±0.004) 0.5+0.35/-0.25
(0.020+0.014/-0.010)
1.6±0.20
(0.063±0.008) L
□MJ316(1206) 3.2±0.15
(0.126±0.006)
1.6±0.15
(0.063±0.006)
1.15±0.10
(0.045±0.004) 0.6+0.4/-0.3
(0.024+0.016/-0.012)
1.6±0.20
(0.063±0.008) L
□MK325(1210)
□MF325(1210)
3.2±0.30
(0.126±0.012)
2.5±0.20
(0.098±0.008)
1.15±0.10
(0.045±0.004) F
0.6±0.3
(0.024±0.012)
1.9±0.20
(0.075±0.008) N
2.5±0.20
(0.098±0.008) M
□MJ325(1210) 3.2±0.30
(0.126±0.012)
2.5±0.20
(0.098±0.008)
1.9±0.20
(0.075±0.008) N 0.6+0.4/-0.3
(0.024+0.016/-0.012)
2.5±0.20
(0.098±0.008) M
□MK432(1812) 4.5±0.40
(0.177±0.016)
3.2±0.30
(0.126±0.012)
2.5±0.20
(0.098±0.008) M 0.9±0.6
(0.035±0.024)
Note : ※. LW reverse type, *1.Thickness code
W
L
e
T
T
L
W
e
CERAMIC CAPACITORS
Thiscatalogcontainsthetypicalspecificationonlyduetothelimitationofspace.Whenyouconsiderthepurchaseofourproducts,pleasecheckourproductspecificationsheets.
 Fordetailsofeachproduct(characteristicsgraph,reliabilityinformation,precautionsforuse,andsoon),seeourwebsite(http://www.ty-top.com/).
22
hq_c_mlcc_e-E06R01
STANDARD QUANTITY
Type EIA(inch) Dimension Standard quantity[pcs]
[mm] Code Paper tape Embossed tape
063 0201 0.3 T 15000
105 0402 0.5 V 10000
0204 0.30 P
107 0603
0.7 C 4000
0.8 A
0.8 A 3000
(Soft Termination)
0.8 A 3000
(Soft Termination)
0306 0.50 V 4000
212 0805
0.85 D 4000
1.25 G 3000
1.25 G 2000
(Soft Termination)
0508 0.85 D 4000
316 1206 1.15 F 3000
1.6 L 2000
325 1210
1.15 F 2000
1.9 N
2.5 M 500(T),1000(P)
432 1812 2.5 M 500
Note : ※.LW Reverse type(□WK)
CERAMIC CAPACITORS
Thiscatalogcontainsthetypicalspecificationonlyduetothelimitationofspace.Whenyouconsiderthepurchaseofourproducts,pleasecheckourproductspecificationsheets.
 Fordetailsofeachproduct(characteristicsgraph,reliabilityinformation,precautionsforuse,andsoon),seeourwebsite(http://www.ty-top.com/).
23
PART NUMBER
Soft Termination Multilayer Ceramic Capacitors
107TYPE  (Dimension:1.6×0.8mm JIS:1608 EIA:0603
【Temperature Characteristic B7 : X7R】 0.8mm thickness(A)
HTLT
Rated voltage x %
TMJ107BB7473[]AHT X7R 0.047 μ ±10, ±20 3.5 200 0.8+0.20/-0 *1, *2
TMJ107BB7104[]AHT X7R 0.1 μ ±10, ±20 3.5 200 0.8+0.20/-0 *1, *2
TMJ107BB7224[]AHT X7R 0.22 μ ±10, ±20 10 150 0.8+0.20/-0 *1, *2
TMJ107BB7474[]AHT X7R 0.47 μ ±10, ±20 10 150 0.8+0.20/-0 *1, *2
TMJ107CB7105[]AHR X7R 1 μ ±10, ±20 10 150 0.8+0.25/-0 *1, *2
GMJ107BB7473[]AHT X7R 0.047 μ ±10, ±20 3.5 200 0.8+0.20/-0 *1, *2
GMJ107BB7104[]AHT X7R 0.1 μ ±10, ±20 3.5 200 0.8+0.20/-0 *1, *2
GMJ107BB7224[]AHT X7R 0.22 μ ±10, ±20 10 150 0.8+0.20/-0 *1, *2
GMJ107BB7474[]AHT X7R 0.47 μ ±10, ±20 10 150 0.8+0.20/-0 *1, *2
GMJ107CB7105[]AHR X7R 1 μ ±10, ±20 10 150 0.8+0.25/-0 *1, *2
UMJ107AB7102[]AHT X7R 1000 p ±10, ±20 3.5 200 0.8+0.15/-0.05 *1, *2
UMJ107AB7222[]AHT X7R 2200 p ±10, ±20 3.5 200 0.8+0.15/-0.05 *1, *2
UMJ107BB7472[]AHT X7R 4700 p ±10, ±20 3.5 200 0.8+0.20/-0 *1, *2
UMJ107BB7103[]AHT X7R 0.01 μ ±10, ±20 3.5 200 0.8+0.20/-0 *1, *2
UMJ107BB7223[]AHT X7R 0.022 μ ±10, ±20 3.5 200 0.8+0.20/-0 *1, *2
UMJ107BB7473[]AHT X7R 0.047 μ ±10, ±20 3.5 200 0.8+0.20/-0 *1, *2
UMJ107BB7104[]AHT X7R 0.1 μ ±10, ±20 3.5 200 0.8+0.20/-0 *1, *2
HMJ107AB7102[]AHT X7R 1000 p ±10, ±20 3.5 200 0.8+0.15/-0.05 *1, *2
HMJ107AB7222[]AHT X7R 2200 p ±10, ±20 3.5 200 0.8+0.15/-0.05 *1, *2
HMJ107BB7472[]AHT X7R 4700 p ±10, ±20 3.5 200 0.8+0.20/-0 *1, *2
HMJ107BB7103[]AHT X7R 0.01 μ ±10, ±20 3.5 200 0.8+0.20/-0 *1, *2
HMJ107BB7223[]AHT X7R 0.022 μ ±10, ±20 3.5 200 0.8+0.20/-0 *1, *2
HMJ107BB7473[]AHT X7R 0.047 μ ±10, ±20 3.5 200 0.8+0.20/-0 *1, *2
HMJ107BB7104[]AHT X7R 0.1 μ ±10, ±20 3.5 200 0.8+0.20/-0 *1, *2
212TYPE (Dimension:2.0×1.25mm JIS:2012 EIA:0805
【Temperature Characteristic B7 : X7R , C7 : X7S】 0.85mm thickness(D)、1.25mm thickness(G)
HTLT
Rated voltage x %
JMJ212CB7106[]GHT 6.3 X7R 10 μ ±10, ±20 10 150 1.25+0.25/-0 *1, *2
EMJ212CB7225[]GHT X7R 2.2 μ ±10, ±20 10 150 1.25+0.25/-0 *1, *2
EMJ212CB7475[]GHT X7R 4.7 μ ±10, ±20 10 150 1.25+0.25/-0 *1, *2
TMJ212CB7225[]GHT 25 X7R 2.2 μ ±10, ±20 10 150 1.25+0.25/-0 *1, *2
GMJ212CB7105[]GHT 35 X7R 1 μ ±10, ±20 10 150 1.25+0.25/-0 *1, *2
UMJ212BB7103[]GHT X7R 0.01 μ ±10, ±20 2.5 200 1.25+0.20/-0 *1, *2
UMJ212BB7223[]GHT X7R 0.022 μ ±10, ±20 2.5 200 1.25+0.20/-0 *1, *2
UMJ212BB7473[]GHT X7R 0.047 μ ±10, ±20 3.5 200 1.25+0.20/-0 *1, *2
UMJ212BB7104[]GHT X7R 0.1 μ ±10, ±20 3.5 200 1.25+0.20/-0 *1, *2
UMJ212BB7224[]GHT X7R 0.22 μ ±10, ±20 3.5 200 1.25+0.20/-0 *1, *2
UMJ212CC7474[]GHTE X7S 0.47 μ ±10, ±20 3.5 150 1.25+0.25/-0 *1, *2
UMJ212CB7105[]GHT X7R 1 μ ±10, ±20 10 150 1.25+0.25/-0 *1, *2
HMJ212KB7102[]DHT X7R 1000 p ±10, ±20 3.5 200 0.85±0.15 *1, *2
HMJ212KB7222[]DHT X7R 2200 p ±10, ±20 3.5 200 0.85±0.15 *1, *2
HMJ212BB7472[]GHT X7R 4700 p ±10, ±20 3.5 200 1.25+0.20/-0 *1, *2
HMJ212BB7103[]GHT X7R 0.01 μ ±10, ±20 3.5 200 1.25+0.20/-0 *1, *2
HMJ212BB7223[]GHT X7R 0.022 μ ±10, ±20 3.5 200 1.25+0.20/-0 *1, *2
HMJ212BB7473[]GHT X7R 0.047 μ ±10, ±20 3.5 200 1.25+0.20/-0 *1, *2
HMJ212BB7104[]GHT X7R 0.1 μ ±10, ±20 3.5 200 1.25+0.20/-0 *1, *2
HMJ212BB7224[]GHT X7R 0.22 μ ±10, ±20 3.5 200 1.25+0.20/-0 *1, *2
HMJ212CC7474[]GHTE X7S 0.47 μ ±10, ±20 3.5 150 1.25+0.25/-0 *1, *2
QMJ212KB7102[]DHT X7R 1000 p ±10, ±20 2.5 150 0.85±0.15 *1, *2
QMJ212KB7222[]DHT X7R 2200 p ±10, ±20 2.5 150 0.85±0.15 *1, *2
QMJ212BB7472[]GHT X7R 4700 p ±10, ±20 2.5 150 1.25+0.20/-0 *1, *2
QMJ212BB7103[]GHT X7R 0.01 μ ±10, ±20 2.5 150 1.25+0.20/-0 *1, *2
QMJ212BB7223[]GHT X7R 0.022 μ ±10, ±20 2.5 150 1.25+0.20/-0 *1, *2
316TYPE (Dimension:3.2×1.6mm JIS:3216 EIA:1206
【Temperature Characteristic B7 : X7R , C7 : X7S】 1.15mm thickness(F)、1.6mm thickness(L)
HTLT
Rated voltage x %
LMJ316BB7226[]LHT 10 X7R 22 μ ±10, ±20 10 150 1.6±0.30 *1, *2
EMJ316BB7475[]LHT X7R 4.7 μ ±10, ±20 10 150 1.6±0.30 *1, *2
EMJ316BB7106[]LHT X7R 10 μ ±10, ±20 10 150 1.6±0.30 *1, *2
TMJ316BB7474[]LHT X7R 0.47 μ ±10, ±20 3.5 200 1.6±0.30 *1, *2
TMJ316BB7475[]LHT X7R 4.7 μ ±10, ±20 10 150 1.6±0.30 *1, *2
TMJ316BB7106[]LHT X7R 10 μ ±10, ±20 10 150 1.6±0.30 *1, *2
GMJ316BB7474[]LHT X7R 0.47 μ ±10, ±20 3.5 200 1.6±0.30 *1, *2
GMJ316AB7225[]LHT X7R 2.2 μ ±10, ±20 10 150 1.6±0.20 *1, *2
GMJ316BB7475[]LHT X7R 4.7 μ ±10, ±20 10 150 1.6±0.30 *1, *2
GMJ316BB7106[]LHT X7R 10 μ ±10, ±20 10 150 1.6±0.30 *1, *2
UMJ316BB7473[]LHT X7R 0.047 μ ±10, ±20 3.5 200 1.6±0.30 *1, *2
UMJ316BB7104[]LHT X7R 0.1 μ ±10, ±20 3.5 200 1.6±0.30 *1, *2
UMJ316BB7224[]LHT X7R 0.22 μ ±10, ±20 3.5 200 1.6±0.30 *1, *2
UMJ316BB7474[]LHT X7R 0.47 μ ±10, ±20 3.5 200 1.6±0.30 *1, *2
UMJ316BB7105[]LHT X7R 1 μ ±10, ±20 3.5 200 1.6±0.30 *1, *2
UMJ316AB7225[]LHT X7R 2.2 μ ±10, ±20 10 150 1.6±0.20 *1, *2
UMJ316BC7475[]LHTE X7S 4.7 μ ±10, ±20 2.5 150 1.6±0.30 *1, *2
Note
Rated voltage
[V]
Temperature
characteristics
Capacitance
tolerance [%]
tanδ
[%]
25
35
Capacitance
[F] Thickness
*3
[mm] Note
Part number 1 Part number 2 Rated voltage
[V]
Temperature
characteristics
Capacitance
[F]
Capacitance
tolerance [%]
tanδ
[%] Thickness
*3
[mm] Note
50
100
Part number 1 Part number 2
Temperature
characteristics
Capacitance
[F]
Capacitance
tolerance [%]
tanδ
[%]
16
Thickness
*3
[mm]
50
100
250
Part number 1 Part number 2 Rated voltage
[V]
16
25
35
50
hq_c_mlcc_e-E06R01
CERAMIC CAPACITORS
Thiscatalogcontainsthetypicalspecificationonlyduetothelimitationofspace.Whenyouconsiderthepurchaseofourproducts,pleasecheckourproductspecificationsheets.
 Fordetailsofeachproduct(characteristicsgraph,reliabilityinformation,precautionsforuse,andsoon),seeourwebsite(http://www.ty-top.com/).
32
PART NUMBER
HTLT
Rated voltage x %
HMJ316 B7102[]FHT X7R 1000 p ±10, ±20 3.5 200 1.15±0.10 *1, *2
HMJ316 B7222[]FHT X7R 2200 p ±10, ±20 3.5 200 1.15±0.10 *1, *2
HMJ316 B7472[]FHT X7R 4700 p ±10, ±20 3.5 200 1.15±0.10 *1, *2
HMJ316KB7103[]FHT X7R 0.01 μ ±10, ±20 3.5 200 1.15±0.20 *1, *2
HMJ316BB7223[]LHT X7R 0.022 μ ±10, ±20 3.5 200 1.6±0.30 *1, *2
HMJ316BB7473[]LHT X7R 0.047 μ ±10, ±20 3.5 200 1.6±0.30 *1, *2
HMJ316BB7104[]LHT X7R 0.1 μ ±10, ±20 3.5 200 1.6±0.30 *1, *2
HMJ316BB7224[]LHT X7R 0.22 μ ±10, ±20 3.5 200 1.6±0.30 *1, *2
HMJ316BB7474[]LHT X7R 0.47 μ ±10, ±20 3.5 200 1.6±0.30 *1, *2
HMJ316BB7105[]LHT X7R 1 μ ±10, ±20 3.5 200 1.6±0.30 *1, *2
HMJ316BC7225[]LHTE X7S 2.2 μ ±10, ±20 3.5 150 1.6±0.30 *1, *2
QMJ316 B7102[]FHT X7R 1000 p ±10, ±20 2.5 150 1.15±0.10 *1, *2
QMJ316 B7222[]FHT X7R 2200 p ±10, ±20 2.5 150 1.15±0.10 *1, *2
QMJ316 B7472[]FHT X7R 4700 p ±10, ±20 2.5 150 1.15±0.10 *1, *2
QMJ316KB7103[]FHT X7R 0.01 μ ±10, ±20 2.5 150 1.15±0.20 *1, *2
QMJ316BB7223[]LHT X7R 0.022 μ ±10, ±20 2.5 150 1.6±0.30 *1, *2
QMJ316BB7473[]LHT X7R 0.047 μ ±10, ±20 2.5 150 1.6±0.30 *1, *2
QMJ316BB7104[]LHT X7R 0.1 μ ±10, ±20 2.5 150 1.6±0.30 *1, *2
SMJ316 B7102[]FHT X7R 1000 p ±10, ±20 2.5 120 1.15±0.10 *1, *2
SMJ316 B7222[]FHT X7R 2200 p ±10, ±20 2.5 120 1.15±0.10 *1, *2
SMJ316 B7472[]FHT X7R 4700 p ±10, ±20 2.5 120 1.15±0.10 *1, *2
SMJ316KB7103[]FHT X7R 0.01 μ ±10, ±20 2.5 120 1.15±0.20 *1, *2
SMJ316BB7223[]LHT X7R 0.022 μ ±10, ±20 2.5 120 1.6±0.30 *1, *2
325TYPE (Dimension:3.2×2.5mm JIS:3225 EIA:1210
【Temperature Characteristic B7 : X7R , C7 : X7S】 1.9mm thickness(N)、2.5mm thickness(M)
HTLT
Rated voltage x %
JMJ325KB7476[]MHP 6.3 X7R 47 μ ±10, ±20 10 150 2.5±0.30 *1, *2
EMJ325KB7226[]MHP 16 X7R 22 μ ±10, ±20 10 150 2.5±0.30 *1, *2
TMJ325AB7475[]MHP X7R 4.7 μ ±10, ±20 5 150 2.5±0.30 *1, *2
TMJ325KB7106[]MHP X7R 10 μ ±10, ±20 10 150 2.5±0.30 *1, *2
GMJ325AB7475[]MHP X7R 4.7 μ ±10, ±20 5 150 2.5±0.30 *1, *2
GMJ325KB7106[]MHP X7R 10 μ ±10, ±20 10 150 2.5±0.30 *1, *2
UMJ325AB7225[]MHP X7R 2.2 μ ±10, ±20 3.5 200 2.5±0.30 *1, *2
UMJ325AB7475[]MHP X7R 4.7 μ ±10, ±20 5 150 2.5±0.30 *1, *2
UMJ325KB7106[]MHP X7R 10 μ ±10, ±20 10 150 2.5±0.30 *1, *2
HMJ325 B7223[]NHT X7R 0.022 μ ±10, ±20 3.5 200 1.9±0.20 *1, *2
HMJ325 B7473[]NHT X7R 0.047 μ ±10, ±20 3.5 200 1.9±0.20 *1, *2
HMJ325 B7104[]NHT X7R 0.1 μ ±10, ±20 3.5 200 1.9±0.20 *1, *2
HMJ325 B7224[]NHT X7R 0.22 μ ±10, ±20 3.5 200 1.9±0.20 *1, *2
HMJ325 B7474[]NHT X7R 0.47 μ ±10, ±20 3.5 200 1.9±0.20 *1, *2
HMJ325 B7105[]NHT X7R 1 μ ±10, ±20 3.5 200 1.9±0.20 *1, *2
HMJ325AB7225[]MHP X7R 2.2 μ ±10, ±20 3.5 200 2.5±0.30 *1, *2
HMJ325KC7475[]MHPE X7S 4.7 μ ±10, ±20 3.5 150 2.5±0.30 *1, *2
QMJ325 B7223[]NHT X7R 0.022 μ ±10, ±20 2.5 150 1.9±0.20 *1, *2
QMJ325 B7473[]NHT X7R 0.047 μ ±10, ±20 2.5 150 1.9±0.20 *1, *2
QMJ325 B7104[]NHT X7R 0.1 μ ±10, ±20 2.5 150 1.9±0.20 *1, *2
QMJ325 B7224[]NHT X7R 0.22 μ ±10, ±20 2.5 150 1.9±0.20 *1, *2
SMJ325 B7223[]NHT X7R 0.022 μ ±10, ±20 2.5 120 1.9±0.20 *1, *2
SMJ325 B7473[]NHT X7R 0.047 μ ±10, ±20 2.5 120 1.9±0.20 *1, *2
Part number 1 Part number 2 Rated voltage
[V]
Temperature
characteristics
Capacitance
[F]
Capacitance
tolerance [%]
tanδ
[%] Thickness
*3
[mm] Note
tanδ
[%] Thickness
*3
[mm] Note
100
250
630
Temperature
characteristics
Capacitance
[F]
Capacitance
tolerance [%]
Part number 1 Part number 2 Rated voltage
[V]
25
35
50
100
250
630
hq_c_mlcc_e-E06R01
CERAMIC CAPACITORS
Thiscatalogcontainsthetypicalspecificationonlyduetothelimitationofspace.Whenyouconsiderthepurchaseofourproducts,pleasecheckourproductspecificationsheets.
 Fordetailsofeachproduct(characteristicsgraph,reliabilityinformation,precautionsforuse,andsoon),seeourwebsite(http://www.ty-top.com/).
33
This catalog contains the typical specification 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/) .
c_mlcc_pack_e-E06R01
Multilayer Ceramic Capacitors
PACKAGING
①Minimum Quantity
Taped package
Type(EIA) Thickness Standard quantity [pcs]
mm code Paper tape Embossed tape
□MK021(008004) 0.125 K 50000
□VS021(008004)
□MK042(01005) 0.2 C, D 40000
□VS042(01005) 0.2 C
□MK063(0201) 0.3 P,T 15000
□WK105(0204) 0.3 P 10000
□MK105(0402)
□MF105(0402)
0.13 H 20000
0.18 E 15000
0.2 C 20000
0.3 P 15000
0.5 V 10000
□VK105(0402) 0.5 W 10000
□MK107(0603)
□WK107(0306)
□MF107(0603)
0.45 K 4000
0.5 V 4000
0.8 A 4000
□VS107(0603) 0.7 C 4000
□MJ107(0603) 0.8 A 3000 3000
□MK212(0805)
□WK212(0508)
□MF212(0805)
0.45 K 4000
0.85 D
1.25 G 3000
□VS212(0805) 0.85 D 4000
□MJ212(0805) 0.85 D 4000
1.25 G 2000
□MK316(1206)
□MF316(1206)
0.85 D 4000
1.15 F 3000
1.6 L 2000
□MJ316(1206) 1.15 F 3000
1.6 L 2000
□MK325(1210)
□MF325(1210)
0.85 D
2000
1.15 F
1.9 N
2.0max. Y
2.5 M 1000
□MJ325(1210) 1.9 N 2000
2.5 M 500(T), 1000(P)
□MK432(1812) 2.5 M 500
Note : LW Reverse type.
②Taping material
※No bottom tape for pressed carrier tape
Card board carrier tape
Top tape
Base tape
Sprocket hole
Bottom tape Chip cavity
Embossed tape
Top tape
Base tape
Sprocket hole
Chip cavity
This catalog contains the typical specification 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/) .
c_mlcc_pack_e-E06R01
Chip filled
Chip
LW Reverse type.
③Representative taping dimensions
Paper Tape(8mm wide)
Pressed carrier tape 2mm pitch Unitmminch)
F2.0±0.05
(0.079±0.002)
4.0±0.1
(0.157±0.004)
1.75
±
0.1
(0.069±0.004)
3.5±0.05
(0.138±0.002)
8.0±0.3
(0.315±0.012)
φ1.5+0.1/-0
(φ0.059+0.004/-0)
Sprocket hole
A
B
T
T1
Type(EIA) Chip Cavity Insertion Pitch Tape Thickness
T1
□MK063(0201) 0.37 0.67
2.0±0.05
0.45max. 0.42max.
□WK105(0204)
0.65 1.15
□MK105(0402) (*1 C) 0.4max. 0.3max.
□MK105(0402) (*1 P) 0.45max. 0.42max.
Note *1 Thickness, C:0.2mm ,P:0.3mm. LW Reverse type. Unit:mm
●Punched carrier tape (2mm pitch) Unit:mm(inch)
F2.0±0.05
(0.079±0.002)
4.0±0.1
(0.157±0.004)
1.75
±
0.1
(0.069±0.004)
3.5±0.05
(0.138±0.002)
8.0±0.3
(0.315±0.012)
φ1.5+0.1/-0
(φ0.059+0.004/-0)
Sprocket hole
A
B
T
Type(EIA) Chip Cavity Insertion Pitch Tape Thickness
□MK105 (0402)
□MF105 (0402)
□VK105 (0402)
0.65 1.15 2.0±0.05 0.8max.
Unit:mm
●Punched carrier tape (4mm pitch) Unit:mm(inch)
F
2.0±0.1
(0.079±0.004)
4.0±0.1
(0.157±0.004)
1.75
±
0.1
(0.069±0.004)
3.5±0.05
(0.138±0.002)
8.0±0.3
(0.315±0.012)
φ1.5+0.1/-0
(φ0.059+0.004/-0)
Sprocket hole
A
B
T
This catalog contains the typical specification 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/) .
c_mlcc_pack_e-E06R01
Type(EIA) Chip Cavity Insertion Pitch Tape Thickness
□MK107(0603)
□WK107(0306)
□MF107(0603)
1.0 1.8
4.0±0.1
1.1max.
□MK212(0805)
□WK212(0508) 1.65 2.4 1.1max.
□MK316(1206) 2.0 3.6
Note:Taping size might be different depending on the size of the product. LW Reverse type. Unit:mm
Embossed tape4mm wide Unitmminch
F1.0±0.02
(
0.039
±
0.001)
2.0±0.04
(
0.079
±
0.002)
0.9
±
0.05
(0.035±0.002)
1.8±0.02
(0.071±0.001)
4.0±0.05
(0.157±0.002)
φ0.8±0.04
(φ0.031±0.002)
Sprocket hole
A
B
Type(EIA) Chip Cavity Insertion Pitch Tape Thickness
K T
□MK021(008004) 0.135 0.27
1.0±0.02 0.5max. 0.25max.
□VS021(008004)
□MK042(01005) 0.23 0.43
□VS042(01005)
Unit:mm
Embossed tape8mm wide Unitmminch
F
2.0±0.1
(0.079±0.004)
4.0±0.1
(0.157±0.004)
1.75±0.1
(0.069±0.004)
3.5±0.05
(0.138±0.002)
8.0±0.3
(0.315±0.012)
φ1.5+0.1/-0
(φ0.059+0.004/-0)
Sprocket hole
A
B
Type(EIA) Chip Cavity Insertion Pitch Tape Thickness
K T
□MK105(0402) 0.6 1.1 2.0±0.1 0.6max 0.2±0.1
□WK107(0306) 1.0 1.8
4.0±0.1
1.3max. 0.25±0.1
□MK212(0805)
□MF212(0805) 1.65 2.4
3.4max. 0.6max.
□MK316(1206)
□MF316(1206) 2.0 3.6
□MK325(1210)
□MF325(1210) 2.8 3.6
Note: LW Reverse type. Unit:mm
This catalog contains the typical specification 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/) .
c_mlcc_pack_e-E06R01
Embossed tape(12mm wide) Unit:mm(inch)
F
2.0±0.1
(0.079±0.004)
4.0±0.1
(0.157±0.004)
1.75±0.1
(0.069±0.004)
5.5±0.05
(0.217±0.002)
12.0±0.3
(0.472±0.012)
φ1.5+0.1/-0
(φ0.059+0.004/-0)
Sprocket hole
A
B
Type(EIA) Chip Cavity Insertion Pitch Tape Thickness
K T
□MK325(1210) 3.1 4.0 8.0±0.1 4.0max. 0.6max.
□MK432(1812) 3.7 4.9 8.0±0.1 4.0max. 0.6max.
Unit:mm
④Trailer and Leader
Blank portion Chip cavity Blank portion Leader
160mm or more
(6.3inches or more)
Direction of tape feed
100mm or more
(3.94inches or more)
400mm or more
(15.7inches or more)
⑤Reel size
E
C
D
R B
t
A
W
A B C D E R
φ178±2.0 φ50min. φ13.0±0.2 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 Unit:mm
⑥Top 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.
0~20° Top tape
Base tape
Pull direction
This catalog contains the typical specification 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/) .
hq_c_mlcc_reli_e-E06R01
Multilayer Ceramic Capacitors
RELIABILITY DATA
1.Operating Temperature Range
Specified
Value
Temperature
Compensating(Class1)
Standard -55 to +125℃
High Frequency Type
High Permittivity (Class2)
Specification Temperature Range
BJ B -25 to +85℃
X5R -55 to +85℃
B7 X7R -55 to +125℃
C6 X6S -55 to +105℃
C7 X7S -55 to +125℃
D7 X7T -55 to +125℃
LD(※) X5R -55 to +85℃
Note: ※LD Low distortion high value multilayer ceramic capacitor
2. Storage Conditions
Specified
Value
Temperature
Compensating(Class1)
Standard -55 to +125℃
High Frequency Type
High Permittivity (Class2)
Specification Temperature Range
BJ B -25 to +85℃
X5R -55 to +85℃
B7 X7R -55 to +125℃
C6 X6S -55 to +105℃
C7 X7S -55 to +125℃
D7 X7T -55 to +125℃
LD(※) X5R -55 to +85℃
Note: ※LD Low distortion high value multilayer ceramic capacitor
3. Rated Voltage
Specified
Value
Temperature
Compensating(Class1)
Standard 50VDC, 25VDC
High Frequency Type 50VDC, 25VDC
High Permittivity (Class2) 50VDC, 35VDC, 25VDC, 16VDC, 10VDC, 6.3VDC, 4VDC, 2.5VDC
4. Withstanding Voltage (Between terminals)
Specified
Value
Temperature
Compensating(Class1)
Standard
No breakdown or damage
High Frequency Type
High Permittivity (Class2)
Test
Methods and
Remarks
Class 1 Class 2
Applied voltage Rated volta×3 Rated voltage×2.5
Duration 1 to 5 sec.
Charge/discharge current 50mA max.
5. Insulation Resistance
Specified
Value
Temperature
Compensating(Class1)
Standard 10000 MΩ min.
High Frequency Type
High Permittivity (Class2) Note 1 C≦0.047μF : 10000 min.
C>0.047μF : 500MΩ・μF
Test
Methods and
Remarks
Applied voltage : Rated voltage
Duration : 60±5 sec.
Charge/discharge current : 50mA max.
This catalog contains the typical specification 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/) .
hq_c_mlcc_reli_e-E06R01
6. Capacitance (Tolerance)
Specified
Value
Temperature
Compensating(Class1)
Standard
C□
U□
SL
0.2pF≦C≦5pF : ±0.25pF
0.2pF≦C≦10pF : ±0.5pF
C>10pF : ±5% or ±10%
High Frequency Type CH 0.3pF≦C≦2pF : ±0.1pF
C>2pF : ±5%
High Permittivity (Class2) BJ, B7, C6, C7, D7, LD(※) : ±10% or ±20%
Note: ※LD Low distortion high value multilayer ceramic capacitor
Test
Methods and
Remarks
Class 1 Class 2
Standard High Frequency Type C≦10μF C>10μF
Preconditioning None Thermal treatment (at 150℃ for 1hr) Note 2
Measuring frequency 1MHz±10% 1kHz±10% 120±10Hz
Measuring voltage Note 0.5 to 5Vrms 1±0.2Vrms 0.5±0.1rms
Bias application one
7. Q or Dissipation Factor
Specified
Value
Temperature
Compensating(Class1)
Standard C<30pF : Q≧400+20C
C≧30pF : Q≧1000CNominal capacitance)
High Frequency Type Refer to detailed specification
High Permittivity (Class2) Note 1 BJ, B7, C6, C7, D7:2.5% max.
Test
Methods and
Remarks
Class 1 Class 2
Standard High Frequency Type C≦10μF C>10μF
Preconditioning None Thermal treatment (at 150℃ for 1hr) Note 2
Measuring frequey 1MHz±10% 1GHz 1kHz±10% 120±10Hz
Measuring voltage Note 1 0.5 to 5Vrms 1±0.2Vrms 0.5±0.1Vrms
Bias application None
High Frequency Type
Measuring equipment : HP4291A
Measuring jig : HP16192A
8. Temperature Characteristic (Without voltage application)
Specified
Value
Temperature
Compensating(Class1)
Standard
Temperature Characteristic [ppm/℃] Tolerance [ppm/℃]
C□ : 0 CG,CH, CJ, CK G : ±30
H : ±60
J : ±120
K : ±250
U□ : -750 UJ, UK
SL : +350 to -1000
High Frequency Type Temperature Characteristic [ppm/℃] Tolerance [ppm/℃]
C□ : 0 CH H : ±60
High Permittivity (Class2)
Specification Capacitance
change
Reference
temperature Temperature Range
BJ B ±10% 20℃ -25 to +85℃
X5R ±15% 25℃ -55 to +85℃
B7 X7R ±15% 25℃ -55 to +125℃
C6 X6S ±22% 25℃ -55 to +105℃
C7 X7S ±22% 25℃ -55 to +125℃
D7 X7S +22/-33% 25℃ -55 to +125℃
LD(※) X5R ±15% 25℃ -55 to +85℃
Note : ※LD Low distortion high value multilayer ceramic capacitor
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.
(C85-C20 ×106(ppm/℃)
C20×△T △T=65
Class 2
Capacitance at each step shall be measured in thermal equilibrium, and the temperature characteristic shall be calculated from the following
equation.
Step B X5R、X7R、X6S、X7S、X7T
1 Minimum operating temperature
2 20℃ 25℃
3 Maximum operating temperature
This catalog contains the typical specification 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/) .
hq_c_mlcc_reli_e-E06R01
(C-C2 ×100(%)
C2
C :Capacitance in Step 1 or Step 3
C2 :Capacitance in Step 2
9. Deflection
Specified
Value
Temperature
Compensating(Class1)
Standard Appearance : No abnormality
Capacitance change : Within ±5% or ±0.5 pF, whichever is larger.
High Frequency Type Appearance : No abnormality
Cpaitance change : Within±0.5 pF
High Permittivity (Class2)
Appearance : No abnormality
Capacitance change : Within ±12.5%(BJ, B7, C6, C7, D7, LD(※))
Note: ※LD Low distortion high value multilayer ceramic capacitor
Test
Methods and
Remarks
Multilayer Ceramic Capacitors
042, 063, ※1105 Type The other types
Board Glass epoxy-resin substrate
Thickness 0.8mm 1.6mm
Warp 1mm (Soft Termination type:3mm)
Duration 10 sec.
※1:105 Type thickness, C: 0.2mm ,P: 0.3mm.
Capacitance measurement shall be conducted
with the board bent
10. Body Strength
Specified
Value
Temperature
Compensating(Class1)
Standard
High Frequency Type No mechanical damage.
High Permittivity (Class2)
Test
Methods and
Remarks
High Frequency Type
Applied force : 5N
Duration : 10 sec.
11. Adhesive Strength of Terminal Electrodes
Specified
Value
Temperature
Compensating(Class1)
Standard
No terminal separation or its indication.
High Frequency Type
High Permittivity (Class2)
Test
Methods and
Remarks
Multilayer Ceramic Capacitors
042, 063 Type 105 Type or more
Applied force 2N 5N
Duration 30±5 sec.
12. Solderability
Specified
Value
Temperature
Compensating(Class1)
Standard
At least 95% of terminal electrode is covered by new solder.
High Frequency Type
High Permittivity (Class2)
Test
Methods and
Remarks
Eutectic solder Lead-free solder
Solder type H60A or H63A Sn-3.0Ag-0.5Cu
Solder temperature 230±5℃ 245±3℃
Duration 4±1 sec.
This catalog contains the typical specification 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/) .
hq_c_mlcc_reli_e-E06R01
13. Resistance to Soldering
Specified
Value
Temperature
Compensating(Class1)
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
Capacitancecange : Within ±2.5%
Q : Initial value
Insulation resistance : Initial value
Withstanding voltage (between terminals) : No abnormality
High Permittivity (Class2) Note 1
Appearance : No abormality
Capactace change : Within ±7.5%(BJ, B7, C6, C7, D7, LD(※))
Dissipation factor : Initial value
Insulation resistance : Initial value
Withstanding voltage (between terminals): No abnormality
Note: ※LD Low distortion high value multilayer ceramic capacitor
Test
Methods and
Remarks
lss 1
042, 063 Type 105 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) Noe 5
Class 2
042、063 Type 105, 107, 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(Class1)
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 (Class2) Note 1
Appearance : No abnormality
Capacitance change : Within ±7.5% (BJ, B7, C6, C7, D7, LD(※))
Dissipation factor : Initial value
Insulation resistance : Initial value
Withstanding voltage (between terminals) : No abnormality
Note: ※LD Low distortion high value multilayer ceramic capacitor
Test
Methods and
Remarks
Class 1 Class 2
Preconditioning None Thermal treatment (at 150℃ for 1 hr)
Note 2
1 cycle
Step Temperature(℃) Time(min.)
1 Minimum operating temperature 30±3
2 Normal temperature 2 to 3
3 Maximum operating temperature 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
This catalog contains the typical specification 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/) .
hq_c_mlcc_reli_e-E06R01
15. Humidity (Steady State)
Specified
Value
Temperature
Compensating(Class1)
Standard
Appearance : No abnormality
Capacitance change : Within ±5% or ±0.5pF, whichever is larger.
Q : C<10pF : Q≧200+10C
10≦C<30pF : Q≧275+2.5C
C≧30pF:Q≧350(C:Nominal capacitance)
Insulation resistance : 1000 MΩ min.
High Frequency Type
Appearance : No abnormality
Capacitance change : Within ±0.5pF,
Insulation resistance : 1000 MΩ min.
High Permittivity (Class2) Note 1
Appearance : No abnormality
Capacitance change : Within ±12.5% (BJ, B7, C6, C7, D7, LD(※))
Dissipation factor : 5.0% max.(BJ, B7, C6, C7, D7, LD(※))
Insulation resistance : 50 MΩμF or 1000 MΩ whichever is smaller.
Note: ※LD Low distortion high value multilayer ceramic capacitor
Test
Methods and
Remarks
Class 1 Class 2
Standard High Frequency Type All items
Preconditioning None Thermal treatment( at 150℃ for 1 hr) Note 2
Temperature 40±2℃ 60±2℃ 40±2℃
Humidity 90 to 95%RH 90 to 95%RH
Duration 500+24/-0 hrs 500+24/-0 hrs
Recovery 6 to 24 hrs (Standard condition) Note 5 24±2 hrs (Standard condition) Note 5
16. Humidity Loading
Specified
Value
Temperature
Compensating(Class1)
Standard
Appearance : No abnormality
Capacitance change : Within ±7.5% or ±0.75pF, whichever is larger.
Q : C<30pF:Q≧100+10C/3
C≧30pF:Q≧200 (C:Nominal capacitance)
Insulation resistance : 500 MΩ min.
High Frequency Type
Appearance : No abnormality
Capacitance change : C≦2pF:Within ±0.4 pF
C>2pF:Within ±0.75 pF
CNominal capacitance)
Insulation resistance : 500 MΩ min.
High Permittivity (Class2) Note 1
Appearance : No abnormality
Capacitance change : Within ±12.5% (BJ, B7, C6, C7, D7, LD(※))
Dissipation factor : 5.0% max. (BJ, B7, C6, C7, D7, LD(※))
Insulation resistance : 25 MΩμF or 500 MΩ, whichever is smaller.
Note: ※LD Low distortion high value multilayer ceramic capacitor
Test
Methods and
Remarks
Class 1 Class 2
Standard High Frequency Type All items
Preconditioning None Voltage treatment
(Rated voltage are applied for 1 hour at 40℃) Note 3
Temperature 40±2℃ 60±2℃ 40±2℃
Humidity 90 to 95%RH 90 to 95%RH
Duration 500+24/-0 hrs 500+24/-0 hrs
Applied voltage Rated voltage Rated voltage
Charge/discharge
current 50mA max. 50mA max.
Recovery 6 to 24 hrs (Standard condition) Note 5 24±2 hrs(Standard condition) Note 5
This catalog contains the typical specification 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/) .
hq_c_mlcc_reli_e-E06R01
17. High Temperature Loading
Specified
Value
Temperature
Compensating(Class1)
Standard
Appearance : No abnormality
Capacitance change : Within ±3% or ±0.3pF, whichever is larger.
Q : C<10pF: Q≧200+10C
10≦C<30pF:Q≧275+2.5C
C≧30pF: Q≧350(C:Nominal 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 (Class2) Note 1
Appearance : No abnormality
Capacitance change : Within ±12.5% (BJ, B7, C6, C7, D7, LD(※))
Dissipation factor : 5.0% max.(BJ, B7, C6, C7, D7, LD(※))
Insulation resistance : 50 MΩμF or 1000 MΩ, whichever is smaller.
Note: ※LD Low distortion high value multilayer ceramic capacitor
Test
Methods and
Remarks
Class 1 Class 2
Standard High Frequency Type BJ, LD(※) C6 B7, C7, D7
Preconditioning None Voltage treatment(Twice the rated voltage shall be applied for
1 hour at 85℃, 105℃ or 125℃) Note 3, 4
Temperature Maximum operating temperature Maximum operating temperature
Duration 1000+48/-0 hrs 1000+48/-0 hrs
Applied voltage Rated voltage×2 Rated voltage×2 Note 4
Charge/discharge
current 50mA max. 50mA max.
Recovery 6 to 24hr (Standard condition) Note 5 24±2 hrs (Standard condition) Note 5
Note: ※LD Low distortion high value multilayer ceramic capacitor
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 150+0/-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 4 150% of rated voltage is applicable to some items. Please refer to their specifications for further information.
Note 5 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 condition.
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".
This catalog contains the typical specification 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/) .
hq_c_mlcc_mhv_reli_e-E06R01
Medium-High Voltage Multilayer Ceramic Capacitor
RELIABILITY DATA
1. Operating Temperature Range
Specified Value
Temperature Compensating(High Frequency type)
CG(C0G) : -55 to +125℃
High permittivity
X7R, X7S : -55 to +125℃
X5 : -55 to +85℃
B : -25 to +85℃
2. Storage Temperature Range
Specified Value
Temperature Compensating(High Frequency type)
CG(C0G) : -55 to +125℃
High permittivity
X7R, X7S : -55 to +125℃
X5R : -55 to +85℃
B : -25 to +85℃
3. Rated Voltage
Specified Value 100VDC(HMK,HMJ), 250VDC(QMK,QMJ,QVS), 630VDC(SMK,SMJ)
4. Withstanding Voltage(Between terminals)
Specified Value No breakdown or damage
Test Methods and
Remarks
Applied voltage : Rated voltage×2.5(HMK,HMJ), Rated voltage×2(QMK,QMJ,QVS), Rated voltage×1.2(SMK,SMJ)
Duration : 1 to 5sec.
Carge/discharge current : 50mA max.
5.Insulation Resistance
Specified Value
Temperature Compensating(High Frequency type)
10000MΩ min
High permittivity
100MΩμF or 10GΩ, whichever is smaller.
Test Methods and
Remarks
Applied voltage : Rated voltage(HMK,HMJ, QMK,QMJ,QVS), 500V(SMK,SMJ)
Duration : 60±5sec.
Charge/discharge current : 50mA max.
6.Capacitance (Tolerance)
Specified Value
Temperature Compensating(High Frequency type)
±0.1pF (C<5pF) ±0.25pF (C<10pF) ±0.5pF (5pF≦C<10pF) ±2%(C=10pF) ±5%(C≧10pF)
High permittivity
±10%, ±20%
Test Methods and
Remarks
Temperature Compensating(High Frequency type)
Measuring frequency : 1MHz±10%
Measuring voltage : 0.5 to 5Vrms
Bias application : None
High permittivity
Measuring frequency : 1kHz±10%
Measuring voltage : 1±0.2Vrms
Bias application : None
This catalog contains the typical specification 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/) .
hq_c_mlcc_mhv_reli_e-E06R01
7.Q or Dissipation Factor
Specified Value
Temperature Compensating(High Frequency type)
C<30pF : Q≧800+20C
C≧30pF : Q≧1400 C:Normal Capacitance(/pF)
High permittivity
3.5%max(HMK,HMJ)
2.5%max(QMK,QMJ, SMK,SMJ)
Test Methods and
Remarks
Temperature Compensating(High Frequency type)
Measuring frequency : 1MHz±10%
Measuring voltage : 0.5 to 5Vrms
Bas application : None
High permittivity
Measuring frequency : 1kHz±10%
Measuring voltage : 1±0.2Vrms
Bas application : None
8.Temperature Characteristic of Capacitance
Specified Value
Temperature Compensating(High Frequency type)
C0G :±30ppm(25 to +125℃)
High permittivity
B : ±10%(-25 to +85℃)
X5R : ±15%(-55 to +85℃)
X7R : ±15%(-55 to +125℃)
X7S : ±22%(-55 to +125℃)
Test Methods and
Remarks
Temperature Compensating(High Frequency type)
Capacitance at 25℃ and 85℃ shall be measured in thermal equilibrium, and the temperature characteristic shall be calculated from the
following equation.
(C85-C25 ×106×[ppm/℃]
C25×ΔT
High permittivity
Capacitance value at each step shall be measured in thermal equilibrium, and the temperature characteristic shall be calculated from the
following equation.
Step B X5R、X7R、X7S
1 Minimum operating tempeature
2 20℃ 25℃
3 Maximum operating temperature
(C-C2 ×100(%)
C2
C : Capacitance value in Step 1 or Step 3
C2 : Capacitance value in Step 2
9.Deflection
Specified Value
Temperature Compensating(High Frequency type)
Appearance : No abnormality
Capacitance change :±5% or ±0.5pF, whichever is larger.
High permittivity
Appearance : No abnormality
Capacitance change : Within±10%
Test Methods and
Remarks
Warp : 1mm (Soft Termination type:3mm)
Duration : 10sec.
Test board : Glass epoxy-resin substrate
Thicknss : 1.6mm
Capacitance measurement shall be conducted with the board bent.
This catalog contains the typical specification 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/) .
hq_c_mlcc_mhv_reli_e-E06R01
10.Adhesive Strength of Terminal Electrodes
Specified Value No terminal separation or its indication.
Test Methods and
Remarks
Temperature Compensating(High Frequency type)
Applied force : 2N
Duration : 10±5sec.
High permittivity
Applied force : 5N
Duration : 30±5sec.
11.Solderability
Specified Value At least 95% of terminal electrode is covered by new solder
Test Methods and
Remarks
Eutectic solder Lead-free solder
Solder type H60A or H63A Sn-3.0Ag-0.5Cu
Solder temperature 230±5℃ 245±3℃
Duration 4±1 sec.
12.Resistance to Soldering
Specified Value
Temperature Compensating(High Frequency type)
Appearance : No abnormality
Capacitance change : C※≦10pF :±0.25pF C※>10pF :±2.5% ※Normal capacitance
Insulation resistance : Initial value
Withstanding voltage (between terminals) : No abnormality
High permittivity
Appearance : No abnormality
Capacitance change : Within±15%(HMK,HMJ), ±10%(QMK,QMJ, SMK,SMJ
Dissipation factor : Inital value
Insulation resistance : Initial value
Withstanding voltage (between terminals) : No abnormality
Test Methods and
Remarks
Preconditioning : Thermal treatment(at 150℃ for 1hr) Note1 (Only High permittivity)
Solder temperature : 270±5℃
Duration : 3±0.5sec.
Preheating conditions : 80 to 100℃, 2 to 5 min. 150 to 200℃, 2 to 5min.
Recovery : 24±2hrs under the stadard condition Note3
13.Temperature Cycle (Thermal Shock)
Specified Value
Temperature Compensating(High Frequency type)
Appearance : No abnormality
Capacitance change : C※≦10pF :±0.25% C※>10pF :±2.5%
Insulation resistance : Initial value
Withstanding voltage (between terminals) : No abnormality
High permittivity
Appearance : No abnormality
Capacitance change : Within±15%(HMK,HMJ), ±7.5%(QMK,QMJ, SMK,SMJ)
Dissipation factor : Initial value
Insulation resistance : Initial value
Withstanding voltage (between terminals) : No abnormality
Test Methods and
Remarks
Preconditioning : Thermal treatment (at 150℃ for 1hr) Note1
Conditions for 1 cycle
Step temperature(℃) Time(min.)
1 Minimum operating temperature 30±3min.
2 Normal temperature 2 to 3min.
3 Maximum operating temperature 30±3min.
4 Normal temperature 2 to 3min.
Number of cycles : 5 times
Recovery : 24±2hrs under the standard condition Note3
This catalog contains the typical specification 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/) .
hq_c_mlcc_mhv_reli_e-E06R01
14.Humidity (Steady state)
Specified Value
Temperature Compensating(High Frequency type)
Appearance : No abnormality
Capacitance change : C※≦10pF :±0.5pF C※>10pF :±5% ※Normal capacitance
Insulation resistance : 1000MΩmin
High permittivity
Appearance : No abnormality
Capacitance change : Within±15%
Dissipation factor : 7%max(HMK,HMJ), 5%max(QMK,QMJ, SMK,SMJ).
Insulation resistance : 25MΩμF or 1000MΩ, whichever is smaller.
Test Methods and
Remarks
Preconditioning : Thermal treatment(at 150℃ for 1hr) Note1 (Only High permittivity)
Temperature : 40±2℃
Humidity : 90 to 95%RH
Duration : 500 +24/-0 hrs
Recovery : 24±2hrs under the standard condition Note3
15.Humidity Loading
Specified Value
Temperature Compensating(High Frequency type)
Appearance : No abnormality
Capacitance change : C※≦2.0pF :±0.4pF 2.0pF<C≦10pF : ±0.75pF C※>10pF :±7.5%
: ※Normal capacitance
Insulation resistance : 500MΩmin
High permittivity
Appearance : No abnormality
Capacitance change : Within±15%
Dissipation factor : 7%max(HMK,HMJ), 5%max(QMK,QMJ, SMK,SMJ).
Insulation resistance : 10MΩμF or 500MΩ, whichever is smaller.
Test Methods and
Remarks
According to JIS 5102 clause 9.9.
Preconditioning : Voltage treatment Note2 (Only High permittivity)
Temperature : 40±2℃
Humidity : 90 to 95%RH
Applied voltage : Rated voltage
Charge/discharge current : 50mA max.
Duration : 500 +24/-0 hrs
Recovery : 24±2hrs under the standard condition Note3
16.High Temperature Loading
Specified Value
Temperature Compensating(High Frequency type)
Appearance : No abnormality
Capacitance change : C※≦10pF :±0.3pF C※>10pF :±3%
Insulation resistance :1000MΩmin
High permittivity
Appearance : No abnormality
Capacitance change : Within±15%
Dissipation factor : 7%max(HMK,HMJ), 5%max(QMK,QMJ, SMK,SMJ).
Insulation resistance : 50MΩμF or 1000MΩ, whichever is smaller.
Test Methods and
Remarks
According to JIS 5102 clause 9.10.
Preconditioning : Voltage treatment Note2 (Only High permittivity)
Temperature : Maximum operating temperature
Applied voltage : Rated voltage×2(HMK,HMJ,QVS) Rated voltage×1.5(QMK,QMJ) Rated voltage×1.2(SMK,SMJ)
Charge/discharge current : 50mA max.
Duration : 1000 +24/-0 hrs
Recovery : 24±2hrs under the standard condition Note3
Note1 Thermal treatment : Initial value shall be measured after test sample is heat-treated at 150+0/-10℃ for an hour and kept at room temperature
for 24±2hours.
Note2 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.
Note3 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 condition.
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".
This catalog contains the typical specification 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/) .
hq_c_mlcc_prec_e-E06R01
Precautions on the use of Multilayer Ceramic Capacitors
PRECAUTIONS
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 purpose 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:
(1)Excessive solder applied can cause mechanical stresses which lead to chip breaking or cracking. Therefore, please consider
appropriate land-patterns for proper amount of solder.
(2)When more than one component are jointly soldered onto the same land, each component's soldering point shall be separated by
solder-resist.
◆Pattern configurations (Capacitor 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
considerations
◆Pattern configurations (Design of Land-patterns)
The following diagrams and tables show some examples of recommended land patterns to prevent excessive solder amounts.
(1)Recommended land dimensions for typical chip capacitors
●Multilayer Ceramic Capacitors : Recommended land dimensions
(unit: mm)
Wave-soldering
Type 107 212 316 325
Size L 1.6 2.0 3.2 3.2
W 0.8 1.25 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
Land patterns for PCBs
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 1.25 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
Note:Recommended land size might be different according to the allowance of the size of the product.
●LWDC: Recommended land dimensions for reflow-soldering
(unit: mm)
Type 105 107 212
Size L 0.52 0.8 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
This catalog contains the typical specification 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/) .
hq_c_mlcc_prec_e-E06R01
(2)Examples of good and bad solder application
Items Not eommended 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
◆Pattern configurations (Capacitor 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 deflection.
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 appropriately checked : size of land patterns, type of adhesive, amount applied, hardening temperature and
hardening period. Therefore, please contact us for further information.
Technical
considerations
◆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:
Place the product at a right
angle to the direction of the
anticipated mechanical
stress.
This catalog contains the typical specification 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/) .
hq_c_mlcc_prec_e-E06R01
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 capacitors 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.
(1)Required 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.
(2)The recommended amount of adhesives is as follows;
[Recommended condition]
Figure 212/316 case sizes as examples
a 0.3mm min
b 100 to 120μm
c Adhesives shall not contact land
Amount adhesive
After capacitors are bonded
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;
(1)Flux used shall be less than or equal to 0.1 wt%( in Cl equivalent) of halogenated content. Flux having a strong acidity content shall
not be applied.
(2)When shall capacitors are soldered on boards, the amount of flux applied shall be controlled at the optimum level.
(3)When 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
considerations
◆Selection of Flux
1-1. When too much halogenated substance(Chlorine, etc.) content is used to activate flux, or highly acidic flux is used, it may lead to
corrosion of terminal electrodes 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℃.
This catalog contains the typical specification 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/) .
hq_c_mlcc_prec_e-E06R01
[Reflow soldering]
【Recommended conditions for eutectic soldering】
【Recommended condition for Pb-free soldering】
Caution
The ideal condition is to have solder mass(filletcontrolled to 1/2 to 1/3 of the
thickness of a capacitor.
②Because excessive dwell times can adversely affect solderability, soldering duration shall
be kept as close to recommended times as possible.
③Allowable number of reflow soldering : 2 times max.
[Wave soldering
【Recommended conditions for eutectic soldering】
【Recommended condition for Pb-free soldering】
Caution
①Wave soldering must not be applied to capacitors designated as for reflow soldering only.
②Allowable number of wave soldering : 1 times max.
[Hand soldering
【Recommended conditions for eutectic soldering】
【Recommended condition for Pb-free soldering】
⊿T
316type or less ⊿T≦150℃
⊿T
325type or more ⊿T≦130℃
Caution
①Use a 50W soldering iron with a maximum tip diameter of 1.0 mm.
②The soldering iron shall not directly touch capacitors.
③Allowable number of hand soldering : 1 times max.
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
considerations
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
This catalog contains the typical specification 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/) .
hq_c_mlcc_prec_e-E06R01
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 storage 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.
(1)If ceramic capacitors are dropped onto a floor or a hard surface, they shall not be used.
(2)Please 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 capacitors 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, so 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
considerations
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 before using the capacitors.
※RCR-2335B(Safety Application Guide for fixed ceramic capacitors for use in electronic equipment)is published by JEITA.
Please check the guide regarding precautions for deflection test, soldering by spot heat, and so on.

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