WLCM1005CR10TB [WALSIN]
Multi-Layer Ceramic High Frequency Inductors;
| 型号: | WLCM1005CR10TB |
| 厂家: | 
Walsin Technology |
| 描述: | Multi-Layer Ceramic High Frequency Inductors |
| 文件: | 总12页 (文件大小:1552K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Approval Sheet
WLCM0603
WLCM1005
Multi-Layer Ceramic High Frequency Inductors
*Contents in this sheet are subject to change without prior notice.
Page 1 of 12
ASC_WLCM Series_V1.0
July - 2018
Approval Sheet
FEATURES
1.
2.
3.
4.
Ceramic structure provides high reliability、high productivity.
Excellence Q and SRF characteristics for RF application.
Wide range inductance and various tolerance options.
RoHS compliance.
APPLICATIONS
1.
2.
3.
4.
Communication system front-end circuit: GSM/3G/LTE, Wi-Fi, GPS.
Cabel/Terrestrial/BS Tuner, Bluetooth, Wireless Audio, Remote control.
M2M: ZigBee, Proprietary wilreless.
EMI solustion in high frequency circuits.
SHAPE and DIMENSION
L
T
W
E
Unit: mm
Packing
Quantity
WLCM
E
L
W
T
(pcs/reel)
Series
(Min/Max)
Paper Tape
WLCM0603
0.60±0.03
1.00±0.10
0.30±0.03
0.50±0.10
0.30±0.03
0.50±0.10
0.10~0.20
0.10~0.30
15,000
10,000
(EIA 0201)
WLCM1005
(EIA 0402)
Ordering Information
WL
CM
0603
Z0
S
1N2
T
B
Product
Code
Series
Dimensions
Series
extension
Tolerance
Value
Packing
Code
WL:
Inductor
Ceramic
multilayer
inductor.
1005:EIA 0402
0603:EIA 0201
Z0:STD
1N2 =1.2nH
12N=12nH
R10=100nH
=0.10uH
T=7” Reeled
(Paper tape)
B:STD
B: 0.1nH
C: 0.2nH
S: 0.3nH
G: 2%
H: 3%
J: 5%
Page 2 of 12
ASC_WLCM Series_V1.0
July - 2018
Approval Sheet
Electrical Characteristics
WLCM0603 series (EIA 0201)
ꢀ
Operating Temperature range: -55
℃ to 125℃
RDC
(Ω)
SRF
(MHz)
Typical Q @
Frequency
(MHz)
Rated
Current
(mA) Max.
Q
Min
Walsin Part Number
L(nH)
Tolerance
Min.
Max.
0.07
0.07
0.08
0.08
0.09
0.10
0.10
0.14
0.14
0.14
0.14
0.18
0.18
0.18
0.19
0.19
0.20
0.20
0.20
0.22
0.22
0.24
0.24
0.25
0.25
0.28
0.28
0.28
0.30
0.30
0.30
0.30
0.30
0.30
0.30
0.30
0.40
0.40
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
WLCM0603Z0□0N3TB
WLCM0603Z0□0N4TB
WLCM0603Z0□0N5TB
WLCM0603Z0□0N6TB
WLCM0603Z0□0N7TB
WLCM0603Z0□0N8TB
WLCM0603Z0□0N9TB
WLCM0603Z0□1N0TB
WLCM0603Z0□1N1TB
WLCM0603Z0□1N2TB
WLCM0603Z0□1N3TB
WLCM0603Z0□1N4TB
WLCM0603Z0□1N5TB
WLCM0603Z0□1N6TB
WLCM0603Z0□1N7TB
WLCM0603Z0□1N8TB
WLCM0603Z0□1N9TB
WLCM0603Z0□2N0TB
WLCM0603Z0□2N1TB
WLCM0603Z0□2N2TB
WLCM0603Z0□2N3TB
WLCM0603Z0□2N4TB
WLCM0603Z0□2N5TB
WLCM0603Z0□2N6TB
WLCM0603Z0□2N7TB
WLCM0603Z0□2N9TB
WLCM0603Z0□3N0TB
WLCM0603Z0□3N1TB
WLCM0603Z0□3N2TB
WLCM0603Z0□3N3TB
WLCM0603Z0□3N4TB
WLCM0603Z0□3N5TB
WLCM0603Z0□3N6TB
WLCM0603Z0□3N7TB
WLCM0603Z0□3N8TB
WLCM0603Z0□3N9TB
WLCM0603Z0□4N3TB
WLCM0603Z0□4N7TB
WLCM0603Z0□5N1TB
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1.0
1.1
1.2
1.3
1.4
1.5
1.6
1.7
1.8
1.9
2.0
2.1
2.2
2.3
2.4
2.5
2.6
2.7
2.9
3.0
3.1
3.2
3.3
3.4
3.5
3.6
3.7
3.8
3.9
4.3
4.7
5.1
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
10,000
10,000
10,000
10,000
10,000
10,000
10,000
10,000
10,000
10,000
10,000
10,000
10,000
10,000
10,000
10,000
10,000
10,000
10,000
10,000
10,000
10,000
10,000
10,000
10,000
9,500
850
850
800
800
750
750
750
600
600
600
600
550
550
500
500
500
450
450
450
450
450
450
450
450
450
450
450
450
450
450
400
400
400
400
400
400
350
350
350
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
9,500
9,500
9,500
9,500
8,000
8,000
8,000
8,000
6,500
6,500
6,500
6,500
6,500
0.40
Page 3 of 12
ASC_WLCM Series_V1.0
July - 2018
Approval Sheet
RDC
(Ω)
SRF
(MHz)
Typical Q @
Frequency
(MHz)
Rated
Current
(mA) Max.
Q
Min
Walsin Part Number
L(nH)
Tolerance
Min.
6,000
6,000
5,400
4,800
4,800
4,500
4,500
3,700
2,200
2,200
2,000
1,800
1,700
1,500
1,300
1,100
1,100
1,000
900
Max.
0.40
0.44
0.50
0.53
0.55
0.62
0.65
0.70
0.80
0.90
1.20
1.80
2.10
2.40
2.80
3.00
2.66
3.37
3.74
WLCM0603Z0□5N6TB
WLCM0603Z0□6N2TB
WLCM0603Z0□6N8TB
WLCM0603Z0□7N5TB
WLCM0603Z0□8N2TB
WLCM0603Z0□9N1TB
WLCM0603Z0□10NTB
WLCM0603Z0□12NTB
WLCM0603Z0□15NTB
WLCM0603Z0□18NTB
WLCM0603Z0□22NTB
WLCM0603Z0□27NTB
WLCM0603Z0□33NTB
WLCM0603Z0□39NTB
WLCM0603Z0□47NTB
WLCM0603Z0□56NTB
WLCM0603Z0□68NTB
WLCM0603Z0□82NTB
WLCM0603Z0□R10TB
5.6
6.2
6.8
7.5
8.2
9.1
10
B, C, S
B, C, S
H,J
H,J
H,J
H,J
H,J
H,J
H,J
H,J
H,J
H,J
J
5
5
5
5
5
5
5
5
5
5
5
4
4
4
4
4
4
4
4
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
350
300
300
300
250
250
250
250
250
200
150
140
120
120
100
80
12
15
18
22
27
33
39
J
47
J
56
J
68
J
80
82
J
70
100
J
60
Typical Electrical Characteristic
0603 L vs. Frequency
0603 Q vs. Frequency
0603 Z vs. Frequency
Page 4 of 12
ASC_WLCM Series_V1.0
July - 2018
Approval Sheet
ꢀ
WLCM1005 series (EIA 0402)
Operating Temperature range: -55
℃
to 125
℃
SRF
(MHz)
RDC
(Ω)
Typical Q @
Frequency
(MHz)
Rated
Current
(mA) Max
Q
Min
Walsin Part Number
L(nH)
Tolerance
Min.
Max.
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
WLCM1005Z0□0N3TB
WLCM1005Z0□0N4TB
WLCM1005Z0□0N5TB
WLCM1005Z0□0N6TB
WLCM1005Z0□0N7TB
WLCM1005Z0□0N8TB
WLCM1005Z0□1N0TB
WLCM1005Z0□1N1TB
WLCM1005Z0□1N2TB
WLCM1005Z0□1N3TB
WLCM1005Z0□1N5TB
WLCM1005Z0□1N6TB
WLCM1005Z0□1N8TB
WLCM1005Z0□2N0TB
WLCM1005Z0□2N2TB
WLCM1005Z0□2N4TB
WLCM1005Z0□2N7TB
WLCM1005Z0□3N0TB
WLCM1005Z0□3N3TB
WLCM1005Z0□3N6TB
WLCM1005Z0□3N9TB
WLCM1005Z0□4N3TB
WLCM1005Z0□4N7TB
WLCM1005Z0□5N1TB
WLCM1005Z0□5N6TB
WLCM1005Z0□6N2TB
WLCM1005Z0□6N8TB
WLCM1005Z0□7N5TB
WLCM1005Z0□8N2TB
WLCM1005Z0□9N1TB
WLCM1005Z0□10NTB
WLCM1005Z0□12NTB
WLCM1005Z0□13NTB
WLCM1005Z0□15NTB
WLCM1005Z0□18NTB
WLCM1005Z0□22NTB
WLCM1005Z0□24NTB
0.3
0.4
0.5
0.6
0.7
0.8
1.0
1.1
1.2
1.3
1.5
1.6
1.8
2.0
2.2
2.4
2.7
3.0
3.3
3.6
3.9
4.3
4.7
5.1
5.6
6.2
6.8
7.5
8.2
9.1
10
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
10,000
0.08
380
380
380
380
380
380
380
380
380
380
380
380
380
380
380
380
380
380
300
300
300
300
300
300
300
300
300
300
300
300
300
300
300
300
300
300
300
10,000
10,000
10,000
10,000
10,000
10,000
10,000
10,000
10,000
10,000
10,000
10,000
10,000
10,000
10,000
6,000
6,000
6,000
6,000
6,000
6,000
6,000
5,300
4,500
4,500
4,500
4,200
3,700
3,400
3,400
3,000
3,000
2,500
2,200
1,900
1,700
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.09
0.09
0.10
0.10
0.12
0.12
0.13
0.13
0.16
0.16
0.16
0.20
0.20
0.20
0.20
0.23
0.23
0.25
0.25
0.28
0.28
0.30
0.30
0.45
0.50
0.55
0.65
0.70
0.70
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
B, C, S
G, H, J
G, H, J
G, H, J
G, H, J
G, H, J
G, H, J
G, H, J
G, H, J
G, H, J
G, H, J
G, H, J
12
13
15
18
22
24
Page 5 of 12
ASC_WLCM Series_V1.0
July - 2018
Approval Sheet
RDC
(Ω)
SRF
(MHz)
Typical Q @
Frequency
(MHz)
Rated
Current
(mA) Max
Q
Min
Walsin Part Number
L(nH)
Tolerance
Min.
Max.
WLCM1005Z0□27NTB
WLCM1005Z0□33NTB
WLCM1005Z0□39NTB
WLCM1005Z0□47NTB
WLCM1005Z0□56NTB
WLCM1005Z0□68NTB
WLCM1005Z0□82NTB
WLCM1005Z0□R10TB
WLCM1005Z0□R12TB
WLCM1005Z0□R15TB
WLCM1005Z0□R18TB
WLCM1005Z0□R22TB
WLCM1005Z0□R27TB
27
33
G, H, J
8
8
8
8
8
8
8
8
8
8
8
8
8
100
100
100
100
100
100
100
100
100
100
100
100
100
1,700
0.80
300
200
200
200
200
200
200
200
150
140
130
120
110
G, H, J
1,600
1,200
1,100
1,000
800
0.90
1.00
1.10
1.10
1.20
1.30
1.60
1.60
3.20
3.70
4.20
4.80
39
G, H, J
47
G, H, J
56
G, H, J
68
G, H, J
82
H, J
600
100
120
150
180
220
270
J
J
J
J
J
J
600
600
550
500
450
400
Typical Electrical Characteristic
1005 L vs. Frequency
1005 Q vs. Frequency
1005 Z vs. Frequency
Page 6 of 12
ASC_WLCM Series_V1.0
July - 2018
Approval Sheet
Test condition & Requirements (WLCM series)
No.
Item
Test condition
Requirements
Inductors shall be visually inspected for visible evidence of No harmful defect for piratical
1
Appearance
defect.
use.
a. Temperature: 25+/- 3℃
b. Relative Humidity: 45 to 75%RH
c. Measuremint Voltage: 500mV
d. Measuring equipment and fixture:
0603(0201) Agilent 4287+16196C
1005(0402) Agilent 4287+16193A
a. Temperature: 25 ± 3℃
b. Relative Humidity: 45 to 75%RH
c. Measurement Voltage: 500mV
d. Measuring equipment and fixture:
0603(0201) Agilent 4287+16196C
1005(0402) Agilent 4287+16193A
a. Temperature: 25 ± 3℃
2
3
Inductance
Q Value
Within specified tolerance
In accordance with electrical
specification
In accordance with electrical
specification
4
5
DC Resistance
Dimension
b. Relative Humidity: 45 to 75%RH
c. Measuring equipment: Agilent 4338
In accordance with dimension
specification.
Dimension shall be measured with calliper or micrometer
Immerse a test sample into a methanol solution containing 90% of the termination is to
6
7
Solder-ability
rosin and immerse into SAC305 (Sn96.5Ag3.0Cu0.5)
solder of 245±5 for 3±1.
be soldered evenly and
continuously.
Immerse a test sample into a methanol solution containing
resin, preheat it at 120 to 150℃ for 1 minutes and
immerse into molten solder of 270 ± 5 ℃ for 10 ± 1
second so that both terminal electrodes are completely
submerged.
No visible damage.
Inductance variation within
10% Q variation within 20%
Resistance to
Soldering Heat
Solder the chip to test jig then apply a force in the
direction shown in below. The soldering shall be done with
the reflow method and shall be conducted with care so
that the soldering is uniform and free of defects such as
heat shock.
No mechanical damage shall
be observed.
Rdc-value:to meet the initial
8
Bending Strength
Spec.
Page 7 of 12
ASC_WLCM Series_V1.0
July - 2018
Approval Sheet
Requirements
No.
Item
Test condition
Solder a test sample to printed circuit board, and
conduct 5 cycles of test under the conditions shown as
below.
0603(0201) &1005(0402) :
Operating temp. range: -55~125℃
Maximum operating temp. (30+/-3min)
No visible damage.
Inductance variation within
10% Q variation within 20%
9
Thermal Shock
Within 3min
Minimum operating temp. (30+/-3min)
Keep a test sample in an atmosphere with a temperature
of 40±2℃,90~95% RH for 500 +24/-0 hours.
No visible damage.
High Humidity
State Life Test
After the removal from the chamber, 2 to 3 hours of
recovery under standard condition, and measurement
shall be made after 24±2 hrs recovery under standard
condition.
10
Inductance variation within
10% Q variation within 20%
Solder a test sample to printed circuit board then keep
the test sample in an atmosphere with a temperature of
40±2, 90~95%RH for 500+24/-0 hours while supplying
the rated current.
No visible damage.
Inductance variation within
10% Q variation within 20%
High Humidity
Load Life Test
11
12
After the removal from test chamber, 2 to 3 hours of
recovery under standard condition, and measurement
shall be made after 24±2 hrs of recovery under standard
condition.
Keep a test sample in an atmosphere with a temperature
of 85±2℃ for 500±12 hours. After the removal from test
chamber, 2 to 3 hours of recovery under standard
condition, and measurement shall be made after 24±2
hrs of recovery under standard condition.
No visible damage.
Inductance variation within
10% Q variation within 20%
High Temperature
State Life Test
Solder a test sample to printed circuit board then keep
the test sample in an atmosphere with a temperature of
85± 2℃ for 500±12 hours while supplying the rated
current.
No visible damage.
Inductance variation within
10% Q variation within 20%
High Temperature
Load
13
After the removal from test chamber, 2 to 3 hours of
recovery under standard condition, and measurement
shall be made after 24±2 hrs of recovery under standard
condition.
Page 8 of 12
ASC_WLCM Series_V1.0
July - 2018
Approval Sheet
Reflow soldering conditions
Pre-heating should be in such a way that the temperature difference between solder and ferrite surface is limited to
150℃ max. Also cooling into solvent after soldering should be in such away that the temperature difference is limited to
100℃ max.
Insufficient pre-heating may cause cracks on the ferrite, resulting in the deterioration of product quality.
Products should be soldered within the following allowable range indicated by the slanted line. The excessive soldering
conditions may cause the corrosion of the electrode, when soldering is repeated, allowable time is the accumulated
time.
Slope of temp. rise
1 ~ 5
℃/sec
sec
A
B
Heat time
50 ~ 150
Heat temperature
120 ~ 180
℃
Slope of temp. rise
Time over 230℃
Peak temperature
Peak hold time
1 ~ 5
℃/sec
sec
C
D
90 ~ 120
255~260
℃
E
10 max.
3
sec
Items
No. of mounting
Page 9 of 12
ASC_WLCM Series_V1.0
July - 2018
Approval Sheet
Reworking with soldering iron
150℃, 1 minute
Preheating
280℃ max.
3 seconds max.
30w max.
Tip temperature
Soldering time
Soldering iron output
End of soldering iron
f 3mm max.
˙Reworking should be limited to only one time.
Note:Do not directly touch the products with the tip of the soldering iron in order to prevent the crack on the ferrite
material due to the thermal shock.
˙ Solder Volume
Solder shall be used not to be exceed the upper limits as shown below.
Accordingly increasing the solder volume, the mechanical stress to product is also increased. Exceeding solder volume
may cause the failure of mechanical or electrical performance.
Page 10 of 12
ASC_WLCM Series_V1.0
July - 2018
Approval Sheet
Packaging Specification
Paper Tape
Page 11 of 12
ASC_WLCM Series_V1.0
July - 2018
Approval Sheet
Quantity per reel
WLCM0603:15K pcs
WLCM1005:10K pcs
Page 12 of 12
ASC_WLCM Series_V1.0
July - 2018
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