Form No.: QF-1274
Edition: 2
SPECIFICATION FOR APPROVAL
Customer:
Customer P/N:
Drawing No:
Quantity:
Chilisin P/N:
0
Pcs.
Date:
ACTW Series
Automotive Grade Inductor
Halogen Free
RoHS Compliant
REACH Compliant
Lead Free Solders
AEC-Q200
奇力新電子股½有限公司
Chilisin Electronics Corp
No. 29, Alley 301, Tehhsin Rd.,
Hukou,Hsinchu 303, Taiwan
TEL:+886-3- 599-2646
FAX:+886-3- 599-9176
E-mail:sales@chilisin.com
http://www.chilisin.com
東莞奇力新電子(東莞廠)有限公司
Chilisin Electronics (Dongguan) Co., Ltd.
No. 78, Puxing Rd., Yuliangwei
Administration Area, Qingxi Town,
Dongguan City, Guangdong,China
TEL:+86-769-8773-0251~3
FAX: +86-769-8773-0232
E-mail:cect@chilisin.com
奇力新電子(越南廠)有限公司
Chilisin Electronics (Vietnam) Limited
No 143 - 145, Road No 10, VSIP Hai
Phong, Lap Le Commune, Thuy
Nguyen Dist, Haiphong City, Vietnam
Tel:84-316 255 688 Fax:84-316 255
689
奇力新電子(湖南廠)有限公司
HuNan Chilisin Electronics Technology
Co., Ltd
No. 8, Shaziao Liangshuijing Town,
Yuanling County, Huaihua City, Hunan
Province 419601, China
Tel:86-745-867-5882
Drawn by
Checked by
Approved by
Desmond.Wu
Cf.Hsieh
Wl.Liu
ACTW Series Specification
1 Scope:
1-1 This specification is applicable to lead free and halogen free of RoHS directive for
ACTW series wide terminal thick film chip resistors
1-2 This product is for automotive electronic application
1-3 AEC-Q200 qualified , grade 1.
2 Part Numbering:
A
C
Series
T
W
0
0
0 6 1 2
Dimension
(inch)
0508
0612
1218
1020
1225
-
1 0 0 2
Resistance Value
J Tol: (3 digit + X)
Ex. 10Ω = 100
4.7Ω = 4R7
Jumper = 000
F/D/B Tol: (4 digit)
Ex. 10.2 Ω = 10R2
10KΩ = 1002
J
Tolerance
D=± 0.5%
F=± 1%
J=± 5%
TP
Taping Code
TP ( 5,000 pcs/reel) : 0612
TE (4,000 pcs/reel): 1218, 1020, 1225
Internal
Code
ACTW:
Wide Terminal Thick Film Chip
Resistors for Automotive
Grade
3 SPECIFICATIONS:
≧1Ω&0Ω
3.1
Resistance Range:<1Ω
JUMPER
(0Ω)
Rated
Power
JUMPER
(0Ω)
Resistance
Value
Type
Rated
Power
at
70℃
Max.
Working
Voltage
Max.
Overload
Voltage
Resistance Range
T.C.R
(ppm/℃)
D(±0.5%)、F(±
1%)
E-24、E-96
±200
±100
1Ω≦R<10Ω
10Ω≦R≦1MΩ
J(±5%)
E-24
1Ω≦R<10Ω
10Ω≦R≦1MΩ
J
F
J
F
(±
(±1%) (±5%) (±1%)
5%)
2.5A
3A
4.0A
5A
50mΩ 20mΩ
MAX. MAX
50mΩ 20mΩ
MAX.
2A
7A
MAX.
50mΩ 20mΩ
MAX.
2A
7A
MAX.
50mΩ 20mΩ
MAX.
2A
8.5A
MAX.
50mΩ 20mΩ
MAX.
MAX.
0508
0612
1/3W
3/4W
150V
200V
200V
400V
±200
±100
1Ω≦R<10Ω
10Ω≦R≦1MΩ
1Ω≦R<10Ω
10Ω≦R≦1MΩ
1Ω≦R<10Ω
10Ω≦R≦1MΩ
1Ω≦R<10Ω
10Ω≦R≦1MΩ
1Ω≦R<10Ω
10Ω≦R≦1MΩ
1Ω≦R<10Ω
10Ω≦R≦1MΩ
1Ω≦R<10Ω
10Ω≦R≦1MΩ
1Ω≦R<10Ω
10Ω≦R≦1MΩ
-55℃ ~ +155℃
1218
1W
250V
500V
±200
±100
1020
1W
200V
400V
±200
±100
1225
2W
200
400
±200
±100
Operating Temperature Range
ACTW Series Specification
3.2 Power Derating Curve:
Operating Temperature Range:- 55½155
℃
For resistors operated in ambient temperatures above 70℃, power rating shall be derated in
accordance with figure below。
3.3 Voltage Rating:
3.3.1 Resistance Range:≧1Ω
Rated Voltage: DC voltage or AC voltage (rms) based on the rated power.
The voltage can be calculated by the following formula. If the calculated value
exceeds the Max.voltage specified in the Table 3, the Max. voltage rating is set as the
voltage rating.
E
=
R×P
E= Rated voltage (v)
P= Power rating (w)
R= Nominal resistance(Ω)
ACTW Series Specification
4 Dimensions:
Dimension
Type
ACTW
ACTW
ACTW
ACTW
ACTW
SizeCode
0508
0612
1218
1020
1225
L
1.20±0.10
1.60±0.20
3.10±0.10
2.50±0.20
3.20±0.20
W
2.00±0.10
3.20±0.20
4.60±0.20
5.00±0.20
6.40±0.20
H
0.50±0.10
0.55±0.10
0.55±0.10
0.55±0.10
0.55±0.10
L1
0.20±0.10
0.35±0.15
0.45±0.25
0.25±0.20
0.45±0.20
L2
0.20±0.15
0.25±0.15
0.40±0.20
0.90±0.20
0.75±0.20
5 Structure Graph:
5.1 Resistance Range:
≧1Ω&0Ω
1
2
3
4
5
Ceramic substrate
1st Top inner electrode
Resistive layer
Bottom inner electrode
1st Protective coating
6
7
8
9
10
2nd Protective coating
G2 layer + Marking
Terminal inner electrode
Ni plating
Sn plating
ACTW Series Specification
6
Reliability Test:
No
Item
Exposure (Storage)
Conditions
Put the specimens in the chamber with temperature of
155±3℃ for 1000 hours. Then take them out to stabilize
in room temperature for 24±4hr or more, and measure of
its resistance variance rate.
Experiment evidence: AEC-Q200
Specifications
Resistors
0.5%、1%:△R=±1.0%
5%:△R=±2.0%
Jumper
Refer to
item 3.
general
specifications
1-1-1
High Temperature
1-1-2
Temperature
Cycling
Put the specimens in the High & low temperature test
chamber with temperature varies from -55℃ to 125℃
for 5 minutes and total 1000 cycles. Take them out to
stabilize in room temperature for 24±4hr or more,
and measure of its resistance variance rate.
Experiment evidence: AEC-Q200
0.5%、1%:△R=±1.0%
5%:△R=±2.0%
Refer to
item 3.
general
specifications
1-1-3
Short Time
Overload
0508/0612/1218/1020/1225 applied 2.5 times rated voltage
for 5 seconds ,RAW25 applied 2.5 times
0.5%、1%:△R=±1.0%
rated voltage for 2 seconds, release the load for
about 30 minutes, then measure its resistance
5%:△R=±2.0%
variance rate. (Rated voltage refer to
item 3. general specifications)
Refer to
item 3.
general
specifications
Refer to JIS-C5201-1 4.13
1-1-4
Biased Humidity
Solder the specimens on the test PCB and put them
into the constant temperature humidity chamber with
85±2℃ and 85±5%RH. Then apply the test voltage
that calculates based on the 10% of rated power
for 1000hrs. Then take them out to stabilize
in room temperature for 24±4hr or more,
and measure of its resistance variance rate.
1.R≧1Ω:
0.5%、1%:△ R=±2.0%
5%:△R=±3.0%
Refer to
item 3.
general
specifications
Experiment evidence: AEC-Q200
1-1-5
Operational
Life
Solder the specimens on the test PCB and put them
in the chamber with temperature of 125±3℃ and load
the rated power for 1000 hours. Then take them out to
stabilize in room temperature for 24±4hr or more,
and measure of its resistance variance rate.
Note: The input voltage shall refer to the power
derating curve (referring to page 2,No.3.2)
0.5%、1%:△R=± 2.0%
5%:△R=± 3.0%
Refer to item
3.general
specifications
1-1-6
Resistance to SolderingHeat
Experiment evidence: AEC-Q200
The specimens are fully immersed into the Pb-free
solder pot, then take them out to stabilize for 1 hour
or more and measure of its resistance variance rate.
Temp of solder pot:260±5℃.
Soldering duration:10±1sec.
0.5%、1%:△R=± 2.0%
5%:△R=± 3.0%
Refer to item
3.general
specifications
Experiment evidence AEC-Q200
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