SYNTON-TECH CORPORATION
CHIP NETWORK
was made by
SYNTON-TECH
Corporation。
File No.:
Version:
Page:
Date:
YC16-02
B
1/22
2012.11.23
1. SUBJECT
: This specification applies on the chip resistors network
2. PART NUMBER
: Part number of the chip resistor is identified
by the No. of Resistors, tolerance, and resistance
value
。
Example :
DESCRIPTION : YC16 8P4R 5% 10K
SYNTON CODE :
YC16
4R
J
103
Product
CHIP
NETWORK
Style
8Pin / 4R
for
0603 x 4
Elements
Tolerance
F :
±1%
J :
±5%
Resistance
Value
E24 Series 5%
3 Digits :
2R2 : 2.2Ω
101 : 100Ω
103 : 10K
105 : 1M
E96 Series 1%
(Please see
detail of
Figure1)
4 Digits :
2R20 : 2.2Ω
1000 : 100Ω
1002 : 10K
1004 : 1M
APPROVED
CHECKED
DESIGNED
REMARK
DOCUMENT NO.
Carol
May
Chen
RE:SGS
0201010069
Confidential, Do Not Disseminate.
SYNTON-TECH CORPORATION
CHIP NETWORK
3.ELECTRICAL CHARACTERISTICS
STYLE
POWER
Maximum Working
Voltage
Maximum Overload
Voltage
Dielectric Withstand
Voltage
No. of resistors
Resistance Range
Operating Temp. Range
Temperature Coefficient
(
±
PPM /
℃)
Figure 1
YC16
1/10W (0603)
50V
100V
100V
4R
0Ω, 10Ω ~ 1MΩ
-55℃ ~ +125℃
±200PPM/℃
File No.:
Version:
Page:
Date:
YC16-02
B
2/22
2012.11.23
4. POWER RATING
(1)Power Derating
: The rated power at the temperature in excess of
70
℃
shall be derated in accordance with figure3
70
100
80
Rated
Power
(%)
60
40
20
0
0
20
40
60
80
100
120
140
125
Ambient Temperature (℃)
Figure2
Confidential, Do Not Disseminate.
SYNTON-TECH CORPORATION
CHIP NETWORK
File No.:
Version:
Page:
Date:
YC16-02
B
3/22
2012.11.23
(2)Rated Voltage :
The DC or AC(rms) continuous working voltage
corresponding to the rated power is determined
by the following formula:
V=
RxP
Where V : Continuous rated DC or AC (rms) working voltage (v)
P : Rated power (w)
R : Resistance value (
Ω
)
5.CONSTRUCTION AND MATERIALS
Confidential, Do Not Disseminate.
SYNTON-TECH CORPORATION
CHIP NETWORK
6. CHARACTERISTICS
File No.:
Version:
Page:
Date:
YC16-02
B
5/22
2012.11.23
(1) Temperature Coefficient of Resistance(T.C.R.)
Test Method : Measure resistance at +25
℃
or specified room
temperature as R1, then measure at -55
℃
and
+125
℃
respectively as R2.
Determine the temperature coefficient of
Resistance from the following formula.
R2 - R1
T. C. R.
=
X
10
6
( p p m /
℃
)
R1 (t2 - t1)
t1 = +25
℃
or specified room temperature
Where
t2 = -55
℃
or +125
℃ ±
3
℃
(2) Thermal Shock
Test Method : -55
℃
for 2 minutes and +125
℃
for 2 minutes as
One cycle, after 5 cycles the specimen shall be
Stabilized at room temperature for one hour
Minimum and then measure the
△
R/R(
%
).
Acceptance Standard :
±
(1.0
%+
0.05
Ω
)
(3) Low Temperature Operation
Test Method :Place the specimen in a test chamber maintained at
-55
℃
. After one hour stabilization at this
temperature, full rated working voltage shall be
applied for 45 minutes. 15 minutes after remove
the voltage, the specimen shall be removed from
the chamber and stabilized at room temperature
for 24 hours minimum.
Measure
△
R/R
(%).
Acceptance Standard :
±
(1.0%+0.05Ω)
No mechanical damage.
Confidential, Do Not Disseminate.
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