CPCL, CPCC, CPCP, CPCF Datasheet

CPCL, CPCC, CPCP, CPCF
Vishay Dale
Wirewound/Metal Film Resistors,
Commercial Power, Vertical Mount
FEATURES
• Board space saving due to vertical design
• Meets or exceeds requirements of EIA Standard
RS-344
• High power to size ratio
• Special inorganic potting compound and
ceramic case provide high thermal conductivity
in a fireproof package
• Compliant to RoHS Directive 2002/95/EC
STANDARD ELECTRICAL SPECIFICATIONS
RESISTANCE RANGE
TOLERANCE
WEIGHT (typical)
GLOBAL
HISTORICAL
POWER RATING

±%
g
MODEL
MODEL
P70 °C W
CPCL02
CPCL-2
2
0.01 to 0.10
5, 10
3.5
CPCC02
CPCC-2
2
0.1 to 500
5, 10
3.5
CPCP02
CPCP-2
2
0.1 to 4K
1, 5
3.5
CPCF02
CPCF-2
2
501 to 150K
1, 5, 10
3.5
CPCL03
CPCL-3
3
0.01 to 0.10
5, 10
5.5
CPCC03
CPCC-3
3
0.1 to 800
5, 10
5.5
CPCP03
CPCP-3
3
0.1 to 5K
1, 5
5.5
CPCF03
CPCF-3
3
801 to 150K
1, 5, 10
5.5
CPCL05
CPCL-5
5
0.01 to 0.10
5, 10
6.9
CPCC05
CPCC-5
5
0.1 to 800
5, 10
6.9
CPCP05
CPCP-5
5
0.1 to 5K
1, 5
6.9
CPCF05
CPCF-5
5
801 to 150K
1, 5, 10
6.9
CPCC07/CPCF07
7
0.1 to 50K
5, 10
9.2
CPCC07/CPCF07 (1)
CPCL10
CPCL-10
10
0.01 to 0.10
5, 10
14.3
CPCC10
CPCC-10
10
0.1 to 1.5K
5, 10
14.3
CPCP10
CPCP-10
10
0.1 to 8K
1, 5
14.3
Notes
• Non-inductively wound types are available on the CPCP series signified by a 1 in the special character on part number such as
CPCP0510R00FB321. Max. resistance value will be ½ of the standard CPCP.
(1) CPCx07 is only available as CPCC or CPCF High Volume style which is noted by using E66 package code and can be found on datasheet
www.vishay.com/doc?30116.
TECHNICAL SPECIFICATIONS
PARAMETER
UNIT
CPCLxx
CPCCxx
CPCPxx
±
300
=
1.0

and
above,
±
20
=
10
 and above,
100 = 0.05  to 0.1  ± 600 = 0.1  to 0.99 ,
Temperature Coefficient
ppm/°C ±±400
± 50 = 1.0  to 9.9 
= 0.01  to 0.049 
± 400 for CPCC07
± 90 = 0.1  to 0.99 
Short Time Overload
5 x rated power for 5 s
Maximum Working Voltage
V
(P x R)1/2
Operating Temperature Range
°C
- 65 to + 275
lb
10 minimum
Terminal Strength
Dielectric Withstanding Voltage VAC
1000
CPCFxx
± 50 all values,
± 400 for CPCF07
- 65 to + 225
GLOBAL PART NUMBER INFORMATION
Global Part Numbering example: CPCC0515R00JB32
C
P
C
C
0
5
1
5
R
0
0
J
B
3
2
GLOBAL MODEL
VALUE
TOLERANCE
PACKAGING
SPECIAL
(See Standard Electrical
Specifications Global
Model column for
options)
R = Decimal
K = Thousand
R1500 = 0.15 
1K500 = 1500 
F = ± 1.0 %
H = ± 3.0 %
J = ± 5.0 %
K = ± 10.0 %
E32 = Lead (Pb)-free two layer bulk
E01 = Lead (Pb)-free skin pack
E66 = Lead (Pb)-free bulk (CPCx07 only)
(Dash number)
(up to 3 digits)
From 1 to 999
as applicable
B32 = Tin/lead two layer bulk
J01 = Tin/lead skin pack
Historical Part Numbering example: CPCC-5 15  5 % B32
CPCC-5
HISTORICAL MODEL
15 
RESISTANCE VALUE
5%
TOLERANCE CODE
B32
PACKAGING
* Pb containing terminations are not RoHS compliant, exemptions may apply
** Please see document “Vishay Material Category Policy”: www.vishay.com/doc?99902
Document Number: 30218
Revision: 17-Feb-11
For technical questions, contact: [email protected]
www.vishay.com
1
CPCL, CPCC, CPCP, CPCF
Wirewound/Metal Film Resistors,
Commercial Power, Vertical Mount
Vishay Dale
DIMENSIONS in inches [millimeters]
C
E
+ 0.078
0.177 - 0.039
1.98
[4.50 +- 0.991
]
B
A
D
DIMENSIONS in inches [millimeters]
C
D
+ 0.043 [1.09]
± 0.005 [0.127]
- 0.012 [0.305]
GLOBAL MODEL
A
± 0.031 [0.794]
B
± 0.031 [0.794]
CPCL02, CPCC02
CPCP02, CPCF02
CPCL03, CPCC03
CPCP03, CPCF03
CPCL05, CPCC05
CPCP05, CPCF05
0.807 [20.50]
0.433 [11.00]
0.276 [7.01]
0.032 [0.813]
0.197 [5.00]
0.984 [24.99]
0.472 [11.99]
0.315 [8.00]
0.032 [0.813]
0.197 [5.00]
1.003 [25.48]
0.512 [13.00]
0.354 [8.99]
0.032 [0.813]
0.197 [5.00]
CPCC07, CPCF07
1.535 ± 0.059
[39.00 ± 1.50]
0.512 ± 0.043
[13.00 ± 1.10]
0.354 ± 0.043
[9.00 ± 1.10]
0.197 + 0.079/- 0.039
[5.00 + 2.0/- 1.0]
CPCL10, CPCP10
CPCC10
1.372 [34.85]
0.633 [16.08]
0.485 [12.32]
0.032 ± 0.005
[0.813 ± 0.127]
0.040 [1.02]
0.036 [0.914]
E
± 0.040 [1.02]
0.290 [7.37]
MATERIAL SPECIFICATIONS
CPCC: Element: Copper-nickel alloy or nickel-chrome
alloy, depending on resistance value
Core: Woven fiberglass (CPCC07 is alumina ceramic)
Body: Steatite ceramic case with inorganic potting
compound
End Caps: Tin plated steel
Terminals: Tinned copper
CPCP: Element: Copper-nickel alloy or nickel-chrome
alloy, depending on resistance value
Core: Ceramic
Body: Steatite ceramic case with inorganic potting
compound
End Caps: Stainless steel
Terminals: Tinned Copperweld®
CPCF: Element: Metal film - nickel-chrome alloy (CPCF07
is nickel oxide)
Core: Alumina ceramic
Body: Steatite ceramic case with inorganic potting
compound
End Caps: Brass alloy
Terminals: Solder-coated copper (CPCF07 is tinned
copper)
DERATING
RATED POWER IN %
Part Marking: DALE, model, wattage, value, tolerance, date
code
CPCL: Element: Self-supporting copper-nickel alloy or
nickel-chrome alloy, depending on resistance value
Body: Steatite ceramic case with inorganic potting
compound
Terminals: Tinned copper
120
100
CPCL
CPCC
CPCP
80
60
40
CPCF
20
0
- 65 - 25
25
75
70
125
175
225
275
AMBIENT TEMPERATURE IN °C
Note
• CPCC07 and CPCF07 deratings begin at 40 °C in lieu of 70 °C
PERFORMANCE
TEST
CONDITIONS OF TEST
CPCP TEST LIMITS
CPCC, CPCL, CPCF
TEST LIMITS
Thermal Shock
- 55 °C to + 275 °C (+ 225 °C for CPCF),
5 cycles, 30 min dwell time
± (2.0 % + 0.05 ) R
± (5.0 % + 0.05 ) R
Short Time Overload
5 x rated power for 5 s
± (2.0 % + 0.05 ) R
± (4.0 % + 0.05 ) R
Dielectric Withstanding Voltage
1000 VRMS for 1 min
± (0.1 % + 0.05 ) R
± (2.0 % + 0.05 ) R
Low Temperature Storage
- 65 °C, full rated working voltage for 45 min
± (2.0 % + 0.05 ) R
± (3.0 % + 0.05 ) R
Bias Humidity
75 °C, 90 % to 100 % RH, 240 h
± (2.0 % + 0.05 ) R
± (5.0 % + 0.05 ) R
Load Life
1000 h at rated power, + 40 °C, 1.5 h “ON”, 0.5 h “OFF”
± (5.0 % + 0.05 ) R
± (5.0 % + 0.05 ) R
Terminal Strength
5 s to 10 s 10 pound pull test
± (1.0 % + 0.05 ) R
± (1.0 % + 0.05 ) R
Resistance to Solder Heat
Terminal immersed 3.5 s in molten solder up to body
± (1.0 % + 0.05 ) R
± (4.0 % + 0.05 ) R
www.vishay.com
2
For technical questions, contact: [email protected]
Document Number: 30218
Revision: 17-Feb-11
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Revision: 02-Oct-12
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Document Number: 91000