WF06P1002PTLJ [WALSIN]
Automotive grade AEC Q-200 compliant;型号: | WF06P1002PTLJ |
厂家: | Walsin Technology |
描述: | Automotive grade AEC Q-200 compliant |
文件: | 总9页 (文件大小:271K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Approval sheet
WF06P, WF08P, WF12P, WF10P, WF20P,
WF25P
±1%, ±5% 0Ω, 1Ω~1MΩ
Thick film High Power Chip Resistors
Size 0603, 0805, 1206, 1210, 2010, 2512
( Automotive Grade )
*Contents in this sheet are subject to change without prior notice.
Page 1 of 8
ASC_WFxxP_J_V03
DEC 2016
Approval sheet
FEATURE
1. Automotive grade AEC Q-200 compliant
2. 100% CCD inspection
3. RoHS compliant and Lead free products
4. High power rating
APPLICATION
1.
2.
3.
4.
5.
6.
High accuracy dc-power supply
Digital multi-meter
Telecommunication
Computer
Automotive industry
Medical and military equipment
DESCRIPTION
The resistors are constructed in a high grade ceramic body (aluminum oxide). Internal metal electrodes are
added at each end and connected by a resistive paste that is applied to the top surface of the substrate. The
composition of the paste is adjusted to give the approximate resistance required and the value is trimmed to
nominated value within tolerance which controlled by laser trimming of this resistive layer.
The resistive layer is covered with a protective coat. Finally, the two external end terminations are added. For
ease of soldering the outer layer of these end terminations is a Tin (lead free) alloy.
Fig 1. Construction of Chip-R
Page 2 of 8
ASC_WFxxP_J_V03
DEC 2016
Approval sheet
QUICK REFERENCE DATA
Item
General Specification
Series No.
WF06P
WF08P
WF12P
WF10P
WF20P
WF25P
0603 (1608)
0805 (2012)
1206 (3216)
1210 (3225)
2010 (5025)
2512 (6432)
Size code
Resistance Tolerance
Resistance Range
±1%, ±5%
0Ω,1Ω~ 1MΩ (E96+E24 series)
TCR (ppm/°C) 20°C ~ +155°C
10.2Ω ~ 1MΩ
≤ ± 100
≤ ± 200
≤ ± 100
≤ ± 100
≤ ± 100
≤ ± 100
1Ω ~ 10Ω
≤ ± 100
≤ ± 100
TCR (ppm/°C) 20°C ~ - 55°C
10.2Ω ~ 1MΩ
≤ ± 100
≤ ± 200
≤ ± 100
≤ ± 150
≤ ± 100
≤ ± 150
1Ω ~ 10Ω
Max. dissipation at
1/8 W
1/4 W
1/2W
1/2W
1W
2W
Tamb=70°C
Max. Operation Voltage
Max. Overload Voltage
Operation temperature
50V
150V
300V
200V
400V
200V
400V
200V
400V
300V
500V
100V
-55 ~ +155’C
Note :
1. This is the maximum voltage that may be continuously supplied to the resistor element, see “IEC publication
60115-8”
2. Max. Operation Voltage : So called RCWV (Rated Continuous Working Voltage) is determined by
RCWV = RatedPower ×Resistance Value or Max. RCWV listed above, whichever is lower.
DIMENSIONS (unit : mm)
Part No
WF06P
1.60 ± 0.10
0.80 ± 0.10
0.45 ± 0.15
0.30 ± 0.10
0.30 ± 0.15
WF08P
2.00 ± 0.10
1.25 ± 0.10
0.50 ± 0.15
0.40 ± 0.20
0.40 ± 0.20
WF12P
3.10 ± 0.15
1.60 ± 0.15
0.55 ± 0.10
0.50 ± 0.25
0.50 ± 0.25
WF10P
3.10 ± 0.10
2.60 ± 0.10
0.55 ± 0.10
0.50 ± 0.20
0.50 ± 0.20
WF20P
5.00 ± 0.20
2.50 ± 0.20
0.60 ± 0.10
0.60 ± 0.25
0.60 ± 0.25
WF25P
6.30 ± 0.20
3.10 ± 0.20
0.60 ± 0.15
0.60 ± 0.25
1.80 ± 0.25
L
W
T
Tt
Tb
Page 3 of 8
ASC_WFxxP_J_V03
DEC 2016
Approval sheet
MARKING
Size \ Nr. Of digit of code\ tolerance
2512 (6432)
±5%
±1%
3-digits marking
3-digits marking
3-digits marking
3-digits marking
3-digits marking
3-digits marking
4-digits marking
4-digits marking
4-digits marking
4-digits marking
2010 (5025)
1210 (3225)
1206 (3216)
4-digits marking
3-digits marking
0805 (2012)
0603 (1608)
3-digits marking(±5% : 2512, 2010, 1210, 1206, 0805, 0603 )
Each resistor is marked with a three digits code on the protective coating to designate the nominal resistance value.
3-digits marking(±1% : 0603)
Nominal resistance
1.E-24 series
Description
As 0603 WR06X ±5%.
2.E-96 series
The 1st two digit codes are referring to the CODE on the table, the 3rd code is the index of resistance value :
Y=10-2,X=10-1,A=100,B=101,C=102,D=103,E=104,F=105
EX :
17.8Ω=25X,178Ω=25A,1K78 =25B
17K8=25C, 178K=25D, 1M78=25E
3. Remark
There is no marking for the items are not under E-24 and E-96 series
CODE R_value CODE R_value CODE R_Value CODE R_value CODE R_value CODE R_value CODE R_value CODE R_value
01
02
03
04
05
06
07
08
09
10
11
12
100
102
105
107
110
113
115
118
121
124
127
130
13
14
15
16
17
18
19
20
21
22
23
24
133
137
140
143
147
150
154
158
162
165
169
174
25
26
27
28
29
30
31
32
33
34
35
36
178
182
187
191
196
200
205
210
215
221
226
232
37
38
39
40
41
42
43
44
45
46
47
48
237
243
249
255
261
267
274
280
287
294
301
309
49
50
51
52
53
54
55
56
57
58
59
60
316
324
332
340
348
357
365
374
383
392
402
412
61
62
63
64
65
66
67
68
69
70
71
72
422
432
442
453
464
475
487
499
511
523
536
549
73
74
75
76
77
78
79
80
81
82
83
84
562
576
590
604
619
634
649
665
681
698
715
732
85
86
87
88
89
90
91
92
93
94
95
96
750
768
787
806
825
845
866
887
909
931
953
976
4-digits marking(±1% : 2512/ 2010/ 1210/ 1206/ 0805
)
Each resistor is marked with a four digits code on the protective coating to designate the nominal resistance value.
Example
RESISTANCE
10Ω
12Ω
100Ω
6800Ω
47000Ω
100
120
101
682
473
3-digits marking(1206 & 0805 & 0603 ±5% )
4-digits marking
10R0
12R0
1000
6801
4702
Page 4 of 8
ASC_WFxxP_J_V03
DEC 2016
Approval sheet
FUNCTIONAL DESCRIPTION
Product characterization
Standard values of nominal resistance are taken from the E96&E24 series for resistors with a tolerance of
±1%,±5%. The values of the E96/E24 series are in accordance with “IEC publication 60063”.
Derating
The power that the resistor can dissipate depends on the operating temperature; see Fig.2
MOUNTING
Due to their rectangular shapes and small tolerances, Surface Mountable Resistors are suitable for handling by
automatic placement systems.
Chip placement can be on ceramic substrates and printed-circuit boards (PCBs).
Electrical connection to the circuit is by individual soldering condition.
The end terminations guarantee a reliable contact.
SOLDERING CONDITION
The robust construction of chip resistors allows
them to be completely immersed in a solder bath
of 260°C for 10 seconds. Therefore, it is possible
to mount Surface Mount Resistors on one side of
a PCB and other discrete components on the
reverse (mixed PCBs).
Surface Mount Resistors are tested for
solderability at 235°C during 2 seconds. The test
condition for no leaching is 260°C for 30 seconds.
Typical examples of soldering processes that
provide reliable joints without any damage are
given in Fig 3.
Fig 3. Infrared soldering profile for Chip Resistors
Page 5 of 8
ASC_WFxxP_J_V03
DEC 2016
Approval sheet
CATALOGUE NUMBERS
The resistors have a catalogue number starting with .
WF08
P
1002
F
T
L
J
Size code
Type code
Resistance code
5%, E24:
Tolerance Packaging code
Termination
code
Special code
WF06: 0603
WF08: 0805
WF12: 1206
WF10: 1210
WF20: 2010
WF25: 2512
P :Power
T: 7” Reeled
taping
J = Automotive
grade and
Anti-Sulfuration
10ppm x 240hrs
J : ±5%
F : ±1%
L
= Sn base
.
0603 size = 1/8W 2 significant digits
followed by No. of zeros
(lead free)
0805 size = 1/4W
1206 size = 1/2W
1210 size = 1/2W
2010 size = 1W
2512 size = 2W
P :
Jumper
e.g.:
3ohm
=3R0
=100
=563
10ohm
56Kohm
1%, E24+E96:
3 significant digits
followed by No. of zeros
100Ω
=1000
=3742
37.4KΩ
ꢀ
ꢀ
Reeled tape packaging : 8mm width paper taping 5000pcs per 7” reel for 0603-1210 sizes.
Reeled tape packaging : 12mm width plastic taping 4000pcs per 7” reel for 2010, 2512 sizes.
TEST CONDITIONS FOR JUMPER (0 Ω)
Item
WF25P
2W
WF20P
1W
WF12P
1/2W
WF10P
1/2W
WF08P
1/4W
WF06P
1/8W
Power Rating At 70°C
Resistance
Max. 20mΩ
Rated Current
10A
25A
7A
5A
5A
3.5A
8.8A
2.5A
6.2A
Peak Current
17.5A
12.5A
12.5A
Operating Temperature
-55 ~ +155°C
Page 6 of 8
ASC_WFxxP_J_V03
DEC 2016
Approval sheet
TEST AND REQUIREMENTS
Essentially all tests are carried out according to the schedule of IEC publication 115-8, category
LCT/UCT/56(rated temperature range : Lower Category Temperature, Upper Category Temperature; damp heat,
long term, 56 days). The testing also meets the requirements specified by EIA, EIAJ and JIS.
The tests are carried out in accordance with IEC publication 68, "Recommended basic climatic and mechanical
robustness testing procedure for electronic components" and under standard atmospheric conditions according
to IEC 60068-1, subclause 5.3. Unless otherwise specified, the following value supplied :
Temperature: 15°C to 35°C.
Relative humidity: 45% to 75%.
Air pressure: 86kPa to 106 kPa (860 mbar to 1060 mbar).
All soldering tests are performed with midly activated flux.
REQUIREMENT
TEST
PROCEDURE / TEST METHOD
Resistor
Within the specified tolerance
Refer to “QUICK REFERENCE
DATA”
Electrical Characteristics
-
-
DC resistance values measurement
Temperature Coefficient of Resistance (T.C.R)
Natural resistance change per change in degree
centigrade.
JISC5201-1: 1998
Clause 4.8
R2 − R
×106 (ppm/°C)
t1 : 20°C+5°C-1°C
1
R
(
t2 − t1
)
1
R1 : Resistance at reference temperature
R2 : Resistance at test temperature
Un-mounted chips completely immersed for 10±1second
in a SAC solder bath at 270℃±5ºC
Resistance to soldering
heat(R.S.H)
∆R/R max. ±(1.0%+0.05Ω)
no visible damage
MIL-STD-202
method 210
a) Bake the sample for 155℃ dwell time 4hrs/ solder
dipping 235℃/ 5sec.
Solderability
J-STD-002
95% coverage min., good
tinning and no visible damage
b) Steam the sample dwell time 8 hour/ solder dipping 215
℃/ 5sec.
c) Steam the sample dwell time 8 hour/ solder dipping 260
℃/ 7sec.
1000 cycles, -55℃
~
+155℃, dwell time 30min ∆R/R max. ±(1.0%+0.05Ω)
Temperature cycling
JESD22
maximum.
No visible damage
Method JA-104
∆R/R max. ±(1.0%+0.05Ω)
No visible damage
Moisture Resistance
MIL-STD-202
65±2°C, 80~100% RH, 10 cycles, 24 hours/ cycle
method 106
1000+48/-0 hours; 85°C, 85% RH, 10% of operation ∆R/R max. ±(2.0%+0.10Ω)
Bias Humidity
MIL-STD-202
method 103
power
No visible damage
Operational Life
1000+48/-0 hours; 35% of operation power, 125±2°C
∆R/R max. ±(2.0%+0.1Ω)
MIL-STD-202
108
method
No visible damage
High Temperature Exposure 1000+48/-0 hours; without load in
a
temperature ∆R/R max. ±(2.0%+0.10Ω)
MIL-STD-202
Method 108
Board Flex
chamber controlled 155±3°C
No visible damage
Resistors mounted on a 90mm glass epoxy resin ∆R/R max. ±(1.0%+0.05Ω)
AEC-Q200-005
PCB(FR4),bending once 2mm for 60sec.
No visible damage
Page 7 of 8
ASC_WFxxP_J_V03
DEC 2016
Approval sheet
Terminal strength
AEC-Q200-006
Thermal shock
MIL-STD-202
method 107
ESD
Pressurizing force: 1Kg, Test time: 60±1sec.
No remarkable damage or
removal of the terminations
Test –55 to 155℃/ dwell time 15min/ Max transfer time ∆R/R max. ±(1.0%+0.05Ω)
20sec 300cycles
No visible damage
Test contact 1.0KV (0.5KV for 0402 only)
∆R/R max. ±(1.0%+0.05Ω)
No visible damage
AEC-Q200-002
Mechanical Shock
MIL-STD-202
method 213
Vibration
Test ½ Sine Pulse, Peak value: 100g, normal duration:
6ms, Velocity change:12.3ft/sec. Three shocks in each
direction, total 18 shocks.
Within product specification
tolerance and no visible damage.
Test 5g’s for 20 min., 12 cycles each of 3 orientations.
△R/R max. ±(1%+0.05Ω) and
MIL-STD-202
method 204
no visible damage
Solvent is Isopropyl alcohol, immersion 3mins at 25℃
No superficial defect on marking,
encapsulation, coating,
Resistance to Solvents :
MIL-STD-202
and brush 10 strokes with a toothbrush with a handle
made of a non-reactive material (wet bristle), immersion appearance. Electrical
and brush 3 times and then air blow dry.
characteristics within products
Method 215
specification and tolerance.
Inspect at 3X max. for marking,
inspect at 10X for part damage.
Electrical test not required. Inspect device construction,
marking and workmanship
External Visual
MIL-STD-883
method 2009
Physical Dimension
JESD22
No visual damage and refer
WTC marking code.
Verify physical dimensions(L, W, T, Tb, Tt)
Within the specified tolerance for
WTC.
method JB-100
Page 8 of 8
ASC_WFxxP_J_V03
DEC 2016
Approval sheet
PACKAGING
Paper Tape specifications (unit :mm)
Series No.
WF25P
WF20P
WF10P
WF12P
WF08P
WF06P
A
B
W
F
E
6.90±0.20
5.50±0.20
3.60±0.20
3.60±0.20
2.40±0.20
1.90±0.20
3.20±0.20
2.80±0.20
3.00±0.20
2.00±0.20
1.65±0.20
1.10±0.20
12.00±0.30
12.00±0.30
5.50±0.10
5.50±0.10
1.75±0.10
1.75±0.10
8.00±0.30
3.50±0.20
1.75±0.10
Series No.
WF25P
WF20P
WF10P
WF12P
WF08P
WF06P
P1
P0
T
ΦD
Max. 1.2
Max. 1.2
Max. 1.0
Max. 1.0
Max. 1.0
0.65±0.05
+0.1
4.00±0.10
4.00±0.10
Φ1.50
−0.0
Reel dimensions
Symbol
A
B
C
D
12 mm tape
8 mm tape
13.0±0.2
13.0±0.2
12.4±1.0
9.0±0.5
Φ178.0±2.0
Φ178.0±2.0
Φ60.0±1.0
Φ60.0±1.0
Page 9 of 8
ASC_WFxxP_J_V03
DEC 2016
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