DOCUMENT : SM440000NH
REVISION
PAGE
: A0
: 1 OF 7
SPECIFICATION FOR APPROVAL
1/2W, 1206, Low Resistance Chip Resistor (Lead free / Halogen Free)
1. Scope
This specification applies to 1.6mm x 3.2mm size 1/2W, fixed metal film chip resistors rectangular
type for use in electronic equipment.
2. Type Designation
□
RL1632
H -
□□□□
(1)
(2)
(3)
(4)
Where
(1) Series No.
(2) H = H Type
(3) Resistance value :
For example - -
Four digits of number
R005 = 5mΩ
R100 = 100mΩ
(4) Resistance tolerance
F =
±
1%
G =
±
2%
J =
±
5%
3. Outline Dimensions and Marking
L
Dimensions (mm)
Code Letter
W
R010
a
a
1632
L
W
3.2
±
0.20
1.6
±
0.20
0.50
±
0.15
0.80
±
0.15
t
a
t
Four digits :
R010 = 10mΩ
R100 = 100mΩ
(Bottom View)
Figure 1. Construction Dimensions
DOCUMENT : SM440000NH
REVISION
PAGE
: A0
: 2 OF 7
SPECIFICATION FOR APPROVAL
4.
Ratings
Power Ratings*
Resistance Value
Resistance Tolerance
Temperature Coefficient of Resistance
Operation Temperature Range
Insulation Resistance
Maximum Working Voltage (V)
1/2W
5~150mΩ
±
1%(F) ,
±
2%(G) ,
±
5%(J)
(≤10mΩ)
(>10mΩ)
±
100ppm/℃
±
50ppm/℃
-55℃ ~ +170℃
Over 100MΩ
( P*R)
1/2
Note * :
Power ratings is based on continuous full load operation at rated ambient temperature of 70℃. For
resistors operated at ambient temperature in excess of 70℃, the maximum load shall be derated in
accordance with the following curve.
RATED LOAD(%)
100
0
-55
70
170
AMBIENT TEMPERATURE(
℃
)
Figure 2.:Power Temperature Derating Curve
DOCUMENT : SM440000NH
REVISION
PAGE
: A0
: 3 OF 7
SPECIFICATION FOR APPROVAL
5. Characteristics
Test Item
Short Time Overload
Condition of Test
2.5 * rated voltage for 5 seconds
Refer to JIS C 5201-1 4.13
Requirements
∆R
:
±
(0.5%+0.0005
Ω
)
Without significant damage by
flashover ( spark, arching ), burning
or breakdown etc.
Between Electrode and Protection
Film 100MΩ or over
Between Electrode and Substrate
1,000MΩ or over
Insulation Resistance
The resistor shall be cramped in the
metal block and tested , as shown below.
Test voltage : 100
±
15V
DC
for 1 minute
Refer to JIS C 5201-1 4.6 Mounting
condition G.
Voltage Proof
The voltage : 100V
AC
(rms.) for 1 minute
∆R
:
±
(0.5%+0.0005
Ω
)
Refer to JIS C 5201-1 4.7
Without damage by flashover, fire
or breakdown, as shown below.
-55 ~125℃ 5 cycles, 15 min at each
extreme condition
Refer to JIS C 5201-1 4.19
Kept at -55℃, 1,000 hours
Refer to JIS C 5201-1 4.23.4
∆R
:
±
(0.5%+0.0005
Ω
)
Without distinct damage in
appearance
∆R
:
±
(0.5%+0.0005
Ω
)
Without distinct damage in
appearance
∆R
:
±
(0.5%+0.0005
Ω
)
Without distinct damage in
appearance
Uniform coating of solder cover
minimum of 95% surface being
immersed
∆R
:
±
(0.5%+0.0005
Ω
)
Without distinct deformation in
appearance
Thermal Shock
Low Temperature Storage
High Temperature Exposure
Kept at 125℃ for 1,000 hours
Refer to JIS C 5201-1 4.23.2
Temperature of Solder : 245
±
5℃
Immersion Duration : 3
±
0.5 second
Refer to JIS C 5201-1 4.17
Dipped into solder at 270
±
5℃
for 10
±
1 seconds
Refer to JIS C 5201-1 4.18
Solderability
Resistance to Soldering Heat
DOCUMENT : SM440000NH
REVISION
PAGE
: A0
: 4 OF 7
SPECIFICATION FOR APPROVAL
Test Item
Load Life
Condition of Test
Rated voltage for 1.5 hours followed by a
pause 0.5 hour at 70
±
2℃.
Cycle repeated 1000 hours
Refer to JIS C 5201-1 4.25
40
±
2℃ with relative humidity 90% to
95%. D.C. rated voltage for 1.5 hours
ON and 30 minutes OFF. Cycle
repeated 1,000 hours
Refer to JIS C 5201-1 4.24
100 G’s for 6milliseconds. 5 pulses
Refer to JIS C 5201-1 4.21
Requirements
∆R
:
±
(0.5%+0.0005
Ω
)
Without distinct damage in
appearance
∆R
:
±
(0.5%+0.0005
Ω
)
Without distinct damage in
appearance
Damp Heat with Load
Mechanical Shock
∆R
:
±
(0.5%+0.0005
Ω
)
Without mechanical damage such
as break
∆R
:
±(0.5%+0.0005
Ω
)
Without mechanical damage such
as break
Bending Test
Glass-Epoxy board thickness : 1.6mm
Bending width : 2mm
Between the fulcrums : 90mm
Refer to JIS C 5201-1 4.33
DOCUMENT : SM440000NH
REVISION
PAGE
: A0
: 5 OF 7
SPECIFICATION FOR APPROVAL
6. Recommend Land Pattern
L
D
W
1632
1.78
L
4.14
D
1.37
Sensing Trace
W
Cu Trace
Unit : mm
Note : We recommend there is no circuit design between pads to avoid circuit short.
京公网安备 11010802033920号
EEWORLD
