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CPA Series (2512)
Construction:
High Purity Alumina ceramic
Nickel alloy thin-film resistive element
Epoxy-resin overcoat
Pre-tinned (Sn100, matte) terminations over
Ni barrier is standard (RoHS and Pb Free)
Halogen Free
Features:
TCR’s to ± 25ppm/ºC
Tolerances less than ± 1% available
Standard and custom sizes & terminations
available (Sn60Pb40 option)
High volume production, suitable for
commercial and special applications
Competitive pricing
Description:
These power resistors are designed to tolerate high current and establish a low thermal resistance interface with the circuit board. A
lower thermal resistance more efficiently sinks heat to the board, enabling a larger effective area for heat dissipation. As a result,
much lower surface temperatures are achievable in comparison to standard chip resistors for the same chip size and applied power.
Dimensions:
Size
Standard Dimensions (mm)
Inch
Metric
L
W
H
T-top
2512
6332
6.3 ± 0.2
3.2 ± 0.2
0.7± 0.1
0.9 ± 0.2
Call for other sizes and/or termination styles
CPA2512 Derating Curve Examples: 6
Electrical Specifications:
Size: Inch (Metric)
Rated Power 1, 2
Rated Voltage
Resistance Tolerance
Standard Resistance Values (E12)
TCR (ppm/ºC) 3
Operating Temperature Range 4
Insulation Resistance (100V, 1min) 5
T-btm
2.0 ± 0.2
2512 (6332)
Up to 16W 1, 2
√(PxR)
± 1%
3.3 to 120 Ω
Call for other values
22 thru 120 Ω
± 25 (E)
3.3 thru 20 Ω
± 50 (Q)
-55 to 155ºC
> 1GΩ
Notes:
1. Dependent on effective thermal conductivity/resistance of board construction/land design and size of board - greater power
capability for board/land with lower thermal resistance. For relatively high thermal resistance mountings, the power resistors are
capable of generating sufficient heat to reflow solder bonds without device damage.
2. Refer to Thermal Performance Plot below.
3. Per MIL-PRF-55342 (-55/25/125ºC).
4. Per MIL-PRF-55342.
5. Per IEC 60115-1.
6. Derating curves are derived from the thermal performance plots.
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Thermal Performance:
Peak Surface Temperature Rise of CPA2512 per Board Thermal Resistance and Applied Power
(see notes below for details)
250
Peak Surface Temp. Rise (deg C)
200
16W
150
16W
10W
10W
6W
3W
6W
100
1W
3W
50
1W
0
0.1
1
10
100
Thermal Resistance of Board (C/W)
Notes:
Plots produced by characterization of thermal coefficients determined from experimental measurements (by thermal imaging
camera) at thermal equilibrium with parts mounted to various boards (with homogeneous thermal conductivity to minimize
uncertainty) per recommended solder pad dimensions and with boards pressed against a Cu carrier/heat-sink (not ideal) with a
thermal compound interface in a static environment (no air flow).
Heat flow primarily through thickness of board with virtually zero lateral heat transfer in board.
Thermal resistance of test boards were calculated based on material manufacturer specified thermal conductivity (20ºC) via the
following: Thermal Resistance (ºC/W) = L / (k • A), where Thermal Conductivity, k (W/m•K) = (L / (A • ΔT)) • ΔQ/Δt, L =
Thickness of board in meters and A = area of chip resistor in meters (2512 size = 6.3x3.2mm)
The relationships between peak surface temperature rise, power, and board thermal resistance are linear, but the x-axis is plotted
in log-scale to offer greater resolution at lower board thermal resistances.
Recommended Solder Pad Dimensions:
Feature
A
B
C
Standard Dimensions (mm)
1.6
7.7
3.5
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Environmental Performance Specifications:
Test
High Temperature Exposure
Short Time Overload
Reference
MIL-PRF-55342,
MIL-STD-202
Method 108A
MIL-PRF-55342,
MIL-STD-202
Method 107G
MIL-PRF-55342
MIL-PRF-55342
Moisture Load Life
JEDEC 22-A101
Life 4
Thermal Shock
Resistance to Soldering Heat 1
Solderability 2
Board Flex
MIL-PRF-55342,
MIL-STD-202
Method 210F
MIL-PRF-55342,
MIL-STD-202
Method 208H
IEC 60115-1 /
JIS C 5202
MIL-PRF-55342
Conditions of Test
Requirement
70ºC, 2000h, rated power 3, 1.5h on, 0.5h off
± 0.5% + 0.01Ω
Condition F-3, -65ºC/0.25h to 155ºC/0.25h, 100
cycles
± 0.1% + 0.01Ω
155ºC, 100h
2.5 x rated voltage 3, 5 sec.
85°C / 85%RH, 2,000 hours
24h/cycle, with and without bias, bias = 1.5h on,
0.5h off @ 1/10th rated power 3
260ºC for 15 sec., over 220ºC for 60 sec., 3 cycles
Precondition E: 150ºC dry bake for 16h,
Method 1 “Dip and Look Test”, 245ºC, 5 sec., Pbfree (SnAgCu) Solder
Bend amount of 3mm, measurements during and
after bend
Force of 3kg for 30 sec.
± 0.1% + 0.01Ω
± 0.1% + 0.01Ω
± 0.5% + 0.01Ω
± 0.1% + 0.01Ω
Min 95% coverage
of critical area
± 0.1% + 0.01Ω,
No mech. damage
No mech. damage
Terminal Strength
Notes:
1. Test conditions modified to represent the high temperature Pb-free reflow conditions and an extra cycle is added.
2. JESD22-B102D adds test conditions for Pb-free and is aligned with J-STD-002B referenced in MIL-STD-202 Method 208H.
JESD22-B102D procedure comes from EIA-638, “Surface Mount Solderability Test”.
3. Parts mounted to boards in accordance with NEMA grade FR-4 of IPC-4101 (62mils thick) with no Cu carrier/heat-sink at a rated
power of 2W (Board Therm. Res. ~ 72C/W).
4. Due to the complexity of managing the heat load of hundreds of pieces during qualification, long-term reliability testing for the
16W power rating had been conducted in terms of the equivalent current density via much thinner/narrower resistor patterns to
limit the heat load. Full power testing was conducted on a smaller scale.
Marking:
Marking shall include:
Material Designator (A = Alumina)
The 4-digit Resistance Value (MIL-STD-1285D)
Ex. A27R0 = 27.0Ω Resistance with Alumina Material
Part Numbering: (Ex. CPA2512E27R0FS-T10)
CP
Product
Designator
CP
A
Material
Designator
A=
Alumina
2512
E
Size, Inch
TCR
Refer to
table above
E=
Q=
± 25 ppm/ºC
± 50 ppm/ºC
27R0
Resistance
Value
Ex. 27R0
= 27.0 Ω
F
Tolerance
F=
± 1%
S
Custom
Designator
Standard = S
Custom = TBD
-T10
Packaging
Tape & Reel
-T10 = 1000
-T50 = 5000
Note: When requesting quotes or ordering parts, it is not necessary to add the T&R package quantity (-T##) to the end of the part
number. This will be added by us based on the quantity ordered.
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