CRC3A4E104JT [KYOCERA AVX]
Array/Network Resistor, Isolated, 0.0625W, 100000ohm, 50V, 5% +/-Tol, -250,250ppm/Cel, 1206, CHIP;型号: | CRC3A4E104JT |
厂家: | KYOCERA AVX |
描述: | Array/Network Resistor, Isolated, 0.0625W, 100000ohm, 50V, 5% +/-Tol, -250,250ppm/Cel, 1206, CHIP 电阻器 |
文件: | 总8页 (文件大小:233K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Chip Resistor Arrays
(CRA3A, CRB3A, CRC3A Series)
Features
Applications
• Reduction in mounting process & costs
• Computer
• Save PCB space.
• Printer
• Reduction of inventory control costs.
• Hard Disk Drive
• CD-ROM
How to Order
CRA3A 4E 103 J T
q
w
e r t
qSeries
wNumber of elements(4E : 4 elements)
eResistance value (3 digits),
Chip Jumper Arrays : 000
rTolerance
Chip Resisitor Arrays have several resistor elements integrated as a single component.
• 4 Elements Array
CRA3A4E series
CRB3A4E series
CRC3A4E series
Convex Scallop type
Concave type
Convex Corner type
J
±5%
Blank
Chip Jumper Arrays
tPackaging
Paper Taping, 5,000pcs/reel
Rating
T
Chip resistor arrays
Chip jumper arrays
Item
Rating
Item
Rating
Rated power(70°C)
Max working voltage
Max Over-load voltage
Resistance value
Tolerance
1/16W element
50V
Rated current
1A
100V
J : 10Ω to 2.2MΩ
J ±5%
Conductive
resistance value
50mΩmax
Working Temperature
Number of elements
−55 to +125°C
4E: 4 Elements
Rated Voltage : 50V or Rated power ×Resistance value, whichever is less.
Standard Resistance Value: E-12 Series
For non standard value, optional please contact us.
Dimensions
(Unit : mm)
4 elements
4 elements
4 elements
CRA3A4E series
CRB3A4E series
CRC3A4E series
C
d
C
C
d
d
W
W
W
Shape
P
P
T
P
T
T
L
L
L
W
L
c
1.60±0.15
3.20±0.15
0.30±0.20
0.20±0.15
0.50±0.10
0.8typ
1.60±0.15
3.20±0.15
0.30±0.20
0.40±0.15
0.60±0.10
0.8typ
1.60±0.15
3.20±0.15
0.30±0.20
0.20±0.15
0.50±0.10
0.8typ
d
T
p
• Detailed specifications are available on request.
Chip Resistor Arrays
(CRB 2A4E, CRC 2A4E, CRB11A2E, CRC11A2E Series)
Miniature chip resistor arrays have 4 and 2
resistor elements integrated as a single
CRB2A 4E 103 J H
component.
How to Order
q
w
e r t
Features
q
Series
(
CRB2A: 2.0×1.0mm,
termination
termination
termination
termination
)
)
(
(
(
CRC2A: 2.0×1.0mm,
CRB11A: 1.0×1.0mm,
CRC11A: 1.0×1.0mm,
• Miniture (2.0×1.0mm) Resistor Arrays
Max 60% space saving compared with the
use of standard chip array (3.2×1.6mm)
• 0.5mm Termination pitch (Same as IC lead-
pin pitch)
)
)
wNumber of elements(4E: 4 elements)
(2E: 2 elements)
eResistance Value(3 digits numbering)
472 = 4.7kΩ, 103 = 10kΩ
000 = 0Ω(Chip Jumper Array)
rTolerance
Easy designing of pattern layout and
improve electrical characteristics for curcuit
• 4 element chip Resistors Array
• 2 element chip Resistors Array
CRB2A4E series (
CRC2A4E series (
Termination)
Termination)
J
±5%
Blank Chip Jumper Array
CRB11A2E series (
CRC11A2E series (
Termination)
Termination)
tPackaging
Code
H
Form
Taping
Material Packing unit
Paper 10000pcs/reel
• 2mm pitch taping
Dimensions
(Unit : mm)
(Unit : mm)
e1
e2
e
b
CRB2A4E series
CRC2A4E series
d
c
C
d
W
W
R1
R2
R3
R4
R1
R2
R3
R4
P
T
P
T
L
L
R1 = R2 = R3 = R4
R1 = R2 = R3 = R4
Code
L
W
T
P
b
Code
L
W
T
P
+0.10
+0.10
+0.10
+0.10
+0.10
+0.10
Dimensions
Code
2.0
1.0
0.4
0.5typ
φ0.15typ
Dimensions
2.0
1.0
0.4
−0.10
0.5typ
−0.10
−0.10
−0.10
−0.10
−0.10
c
d
e
Code
c
d
e1
e2
+0.15
−0.15
+0.15
+0.15
+0.15
+0.10
−0.10
+0.10
Dimensions
0.2
0.25
0.25typ
Dimensions 0.15
0.25
0.3
0.4
−0.15
−0.15
−0.15
−0.10
• Non-marking on chips
• Non-marking on chips
(Unit : mm)
(Unit : mm)
e
b
e1
CRB11A2E series
CRC11A2E series
c
c
d
d
W
W
R1
R2
R1
R2
P
L
P
L
T
T
R1 = R2
R1 = R2
Code
L
W
T
P
b
Code
L
W
T
P
+0.10
−0.10
+0.10
−0.10
+0.10
+0.10
−0.10
+0.10
−0.10
+0.05
Dimensions 1.00
1.00
d
0.40
0.50typ
φ0.15typ
Dimensions 1.00
1.00
0.35
0.65typ
−0.10
−0.05
Code
c
e
Code
c
d
e1
+0.15
−0.15
+0.15
−0.15
+0.15
−0.15
+0.15
−0.15
+0.10
−0.10
Dimensions 0.20
0.25
0.25typ
Dimensions 0.20
0.20
0.33
• Non-marking on chips
• Non-marking on chips
Rating
Chip resistor arrays
Item Rating
Chip jumper array
Item Rating
Rated power(70°C) 1/32W/element
Max working
25V
50V
Rated current
1A
voltage
Max Over-load
voltage
Resistance value
Tolerance
10Ω to 1MΩ
J : ±5%
Conductive
resistance value
50mΩmax
Rated Voltage : Rated power × Resistance value, whichever is less.
Standard Resistance Value: E-6 Series
Working
−55 to +125°C
Temperature
Please contact sales engineer for any other requirements of the nominal resistance
value and the tolerance.
Number of
4E : 4Elements, 2E : 2Elements
elements
Chip Resistor Arrays
(CRC4A8E Series)
Features
• 0.5mm termination pitch(same as IC lead-pin
pitch).
Easy designing of pattern layout and
improve electrical characteristics for circuit.
3.8mm length of the chip makes the
assembly of the next chip possible without
changing the pattern pitch.
How to Order
CRC4A 8E 103 J T
q
w
e r t
qSeries CRC4A
wNumber of elements
8E = 8 elements
eResistance value
3 digits numbering
rTolerance
J
±5%
tPackaging
T
Taping paper 5,000pcs/reel
• 8 element chip Resistor Array
CRC4A8E series (
Termination)
(Unit : mm)
Dimensions
Rating
Chip Resistor Arrays
Item Rating
e
1/16W/element
1/4W/packege
25V
Rated power(70°C)
*
Max working voltage
Max over-load voltage
Resistance value
Torerance
50V
P
T
L
10Ω to 1MΩ
J:±5%
Working temperature
Number of elements
−55 to +125°C
8E:8elements
R1
R2
R3
R4
R5
R6
R7
R8
Rated Voltage : Rated power × Resistance value,
whichever is less.
R1=R2=R3=R4=R5=R6=R7=R8
Standard Resistance Value: E-6 Series
Please contact sales engineer for any other requirements of
the nominal resistance value and the tolerance.
Code
Dimensions 3.8±0.1
Code
L
W
T
P
c
1.6±0.1
e
0.45±0.1
0.5typ
0.3±0.2
d
Dimensions 0.3±0.15
0.3±0.1
• No marking on chips.
Chip Resistor Arrays
(CRB6A8E Series)
Features
• Equal length conductors can be traced out
from 0.8mm pitch termination.
Also, good matching at low impedance.
How to Order
CRB6A 8E 390 G U
q
w
e r t
qSeries CRB6A
wNumber of elements
8E = 8 elements
eResistance value
3 digits numbering
rTolerance
G
±2%
tPackaging
U
Taping plastic 4,000pcs/reel
• 8 element chip Resistor Array
CRB6A8E series (
Termination)
(Unit : mm)
Dimensions
Rating
Chip Resistor Arrays
e
Item
Rating
1/16W/element
50V
Rated power(70°C)
*
Max working voltage
Max over-load voltage
Resistance value
Torerance
100V
P
L
T
10Ω to 1MΩ
G:±2%
Working temperature
Number of elements
−55 to +125°C
8E:8elements
R1
R2
R3
R4
R5
R6
R7
R8
Rated Voltage : Rated power × Resistance value,
whichever is less.
Standard Resistance Value: E-6 Series
Please contact sales engineer for any other requirements of
the nominal resistance value and the tolerance.
R1=R2=R3=R4=R5=R6=R7=R8
Code
Dimensions 6.4±0.2
Code
Dimensions 0.4±0.15
L
W
T
P
c
1.6±0.2
(Top side)
0.5±0.1
0.6±0.1
e(Bottom side)
0.8typ
0.3±0.2
d
e
0.4±0.15
Recommended Land Patterns
Recommended Land Patterns is referred the following for example
(Unit : mm)
Series
a
b
c
d
CRA3A4E
CRB3A4E
CRC3A4E
CRB2A4E
CRB11A2E
CRC11A2E
CRC4A8E
CRB6A8E
ATC1A
0.8
0.7
0.8
0.4
0.4
0.5
0.8
0.7
0.5
2.4
2.3
2.4
1.5
1.5
1.5
2.4
2.3
1.5
0.4
0.4
0.4
0.25
0.25
0.4
0.3
0.4
0.4
0.8
0.8
0.8
0.5
0.5
0.65
0.5
0.8
0.65
Solder resist
b
a
d
c
CRC2A4E Series
RNA4A8E Series
0.8
0.4
3.0
4.8
0.5
0.25
0.4
Test Conditions and Standards
CR, CJ, CRA3A, CRB3A, CRC3A series
Electrical Characteristics
Standard
Test Conditions
Item
Resistor
Within Initial Tolerance
Jumper
Resistor
Power Contdition A
Jumper
DC Resistance
50mΩmax
(20°C, 65%RH)
Test Temperature: 25,125(°C)
∆R/R=R2−R1/R1×1/T2−T1×106
∆R/R: Temp. Coefficient
(ppm/°C)
T1: 25(°C)
T2: 125(°C)
Resistance(Ω)
TCR(ppm/°C)
−100 to +100
*D, F
10≤R≤1M
J, CR05:F
R <10
10≤ R ≤1M
1M< R
Temperature
Characteristics
−100 to +600
−250 to +250
−500 to +300
R1: T1 Resistance at (Ω)
R2: T2 Resistance at (Ω)
*Except CR05
(1) Apply 2.0×rated voltage for (1) 2A for 5sec.
5sec. (2.5×rated voltage
for Arrays)
(CJ03: 1A)
(2) Wait 30minutes
(3) Measure
(2) Wait 30minutes
(3) Measure resistance
CR03: 30Vmax
CR05: 50Vmax
CR10: 100Vmax
CR21: 200Vmax
CR32: 400Vmax
CRA3A, CRB3A, CRC3A :
100V max
resistance
±(2.0%+0.10Ω)max
of the intial value
∆R/R
50mΩmax
Short-time
Overload
No evidence of mechanical damage
intermittent overload
Visual
(1) Perform 10000voltage
cycles as follows:
(1) Perform 10000
current cycles as
follows:
ON(2.0×rated voltage,
2.5×for Arrays )
OFF
1sec.
25sec.
ON(2A)
OFF
1sec.
25sec.
±(5%+0.1Ω)max
of the intial value
∆R/R
50mΩmax
(2) Stabilization time 30min
without loading
(3) Measure resistance
CR03: 30Vmax
Intermittent
Overload
(2) Wait 30minutes
(3) Measure
resistance
CJ03: 1A max
CR05: 50Vmax
CR10: 100Vmax
CR21: 200Vmax
CR32: 400Vmax
CRA3A, CRB3A, CRC3A :
100V max
No evidence of mechanical damage
No evidence of mechanical damage
Visual
Dielectric
Withstanding Voltage
Apply 500VAC for 1min (CR10 300VAC)
(CR05, CRA3A, CRB3A, CRC3A 300VAC/1sec.
CR03 50VAC/1min.)
■CR03, CJ03 : 108Ωmin
■CR05, CJ05 : 108Ωmin
■CR10, CJ10 : 109Ωmin
■CR21, CJ21 : 1010Ωmin
■CR32, CJ32 : 1012Ωmin
■CRA3A, CRB3A, CRC3A : 109Ωmin
Insulation Resistance
Apply 500V DC.
(CR05, CRA3A, CRB3A, CRC3A 100V DC
CR03 50VDC)
Test Conditions and Standards
CR, CJ, CRA3A, CRB3A, CRC3A series
Mechanical Characteristics
Standard
Test Conditions
Item
Resistor
Jumper
Resistor
Jumper
Apply the load as show:
Measure resistance during load application
±(1%+0.05Ω)max
of the intial value
∆R/R
50mΩmax
Unit: mm
50
20
R230
Bending in
10seconds
Terminal
Strength
(φ5)
±2max
45
No evidence of mechanical damage after loading
Visual
45
PC board: Glass epoxy t=1.6
±(1%+0.05Ω)max
50mΩmax
Immerse into molten solder at 260±5°C for 10±1sec.
Stabillize component at room temperature for 1hr.
Measure resistance.
∆R/R
Soldering Heat
Resistance
of the intial value
No evidence of leaching
Visual
Immerse in Rogin Flux for 2±0.5 sec. and in
SN62 solder at 235±5°C for 2±0.5 sec.
Solderability
Coverage ≥95% each termination end
±(1%+0.1Ω)max
50mΩmax
2 hrs. each in X, Y and Z axis. (TTL 6hrs.)10 to 55 Hz
sweep in 1min.at 1.5mm amplitude.
∆R/R
Anti-Vibration
Test
of the intial value
Visual
∆R/R
No evidence of mechanical damage
±(0.5%+0.05Ω)max
50mΩmax
Immerse in static state butyl acetate at 20°C to 25°C
for 30±5sec.
Solvent
of the intial value
Stabillize component at room temperature for 30min
then measure Value.
Resistance
Visual
No evidence of mechanical damage
Environmental Characteristics
Standard
Test Conditions
Item
Resistor
Jumper
Resistor
Jumper
1) Run 5cycles as follows: −55±3°C for 30min.
125±3°C for 30min. Room temp for 10-15min.
2) Stabilize component at room temperature for 1hr.
then measure value.
±(1%+0.05Ω)max
of the intial value
50mΩmax
∆R/R
Visual
∆R/R
Temperature
Cycle
No evidence of mechanical damage
+48
1) Dwell in −55°C chamber without loading for 1000
±(2%+0.1Ω)max
of the intial value
−0
Low
Temperature
Storage
50mΩmax
hrs.
2) Stabilize component at room temperature for 1hr.
then measure value.
No evidence of mechanical damage
Visual
+48
1) Dwell in 125°C chamber without loading for 1000
−0
±(3%+0.1Ω)max
of the intial value
High
Temperature
Storage
50mΩmax
50mΩmax
50mΩmax
50mΩmax
∆R/R
Visual
∆R/R
hrs.
2) Stabilize component at room temperature for 1hr.
then measure value.
No evidence of mechanical damage
1) Dwell in temp: 65°C RH90 to 95%RH chamber
without loading for 1000−+408hrs.
2) Stabilize component at room temperature for 1hr.
then measure value.
±(3%+0.1Ω)max
of the intial value
Moisture
Resistance
No evidence of mechanical damage
Visual
∆R/R
1) Temp: 70±3°C Voltage: (rated voltage) on 90 min
off 30min. Duration: 1000−+408 hrs.
2) Stabilize component at room temperature for 1hr.
then measure value.
±(3%+0.1Ω)max
of the intial value
Life Test
No evidence of mechanical damage
Visual
∆R/R
1) Temp: 40±2°C RH: 90-95% Voltage Cycle: on 90
min(rated voltage) off 30min. Duration: 1000−+408 hrs.
2) Stabilize component at room temperature for 1hr.
then measure value.
±(3%+0.1Ω)max
of the intial value
Loading Life
in Moisture
No evidence of mechanical damage
Visual
Precautions
Circuit design
Soldering method
1) Once application and assembly environments have been checked,
the resistors may be used in conformance with the catalog and the
specifications.
1) Recommendable temperature profile
reflow
2) Please consult the manufacturer in advance when the resistors is
used in devices such as: devices which deal with human life, I.e.
medical devices; devices which are highy public orientated; and
devices which demand a high standerd of liability.
Temp(°C)
300
230 to 250°C
250
200
150
100
50
preheat
More than 180°C
40 sec. max.
3) Please use the resistors in conformance with the operating
temperature provided in both the catalog and the specifications.
0
(Time)
4) Please keep voltage under the rated voltage which is applied to the
resistor.
60 sec.
60 sec.
10 sec. max.
5) Do not use the resistor in an environment where it might easily
exceed the respective provisions concerning shock and vibration
specified in the catalog and specifications.
2) Recommendable temperature profile
wave
6) Please do not use the resistor in the following environments.
q
w
e
State that water, oil, and solvent hang in resistor
Temp(°C)
State where poisonous gas (sulfur and chlorine, etc.) exists
State that direct sunshine, radiation, and ultraviolet, etc. are irradiated
300
230 to 250°C
250
200
150
100
50
preheat
∆T
7) There is a thing that resistance changes according to the stuff of the
resin when the coating with the resin is given.
Please use resin coating after confirming the characteristic.
0
(Time)
8) There is a thing that resistance changes according to flux and
cleaner.
60 to 120 sec.
3 sec. max.
Please use flux and cleaner after confirming the characteristic.
(Caution) Cooling after soldering should be as slow as possible.
Ensure that the chip Resistor is preheated adequately.
9) Please consult about a lead free products.
Ensure that the temperature difference(∆T) does not exceed 130˚C.
Storage
3) pb-free recommendable temperature profile
reflow
1) Keep storage place temperature +5 to +35˚C, humidity 45 to 75%
RH.
2) Please keep parts out of poisonous gas such as sulfur or chlorine in
the air, and out of salty moisture. Or they may cause rust of
terminal, and poor solderability. and, please consider the above-
mentioned item after mounting your company.
Peak temperature
250°C±5°C
5 to 10 sec. max.
Temp(°C)
300
250
200
150
100
50
preheat
170 to 180°C
More than 220°C
20 sec. max.
1 to 3°C/sec.
4) Soldering iron
Temperature
Time
soldering iron 300±5°C *
3 sec. max.
0
(Time)
*
90±30 sec.
*Do not place the soldering iron on the chip. Soldering iron is 30W max.
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