NCW 0406 AT, NCW 0612 AT
www.vishay.com
Vishay Beyschlag
Low Ohmic Wide Terminal Thin Film Chip Resistors
FEATURES
• Resistance range down to 0.1
• Low TCR of ± 50 ppm/K
• Excellent overall stability
• Rated power dissipation P85 up to 1 W for size 0612
• Advanced sulfur
ASTM B 809
resistance
verified
according
to
• Superior moisture resistivity (85 °C; 85 % RH)
• AEC-Q200 qualified
• Superior temperature cycling robustness
NCW AT low ohmic resistors are the perfect choice for most
fields of modern professional power measurement
electronics where reliability, stability, power dissipation and
robust design is of major concern. The product features
extraordinary temperature cycling robustness, verified
through extensive testing. The permissible power rating is
specified with up to 1 W for size 0612. Typical applications
include power electronics in automotive and industrial
appliances (e.g. burden resistors).
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
APPLICATIONS
• Automotive
• Industrial
• High power and high temperature applications
TECHNICAL SPECIFICATIONS
DESCRIPTION
NCW 0406 AT
Imperial size
NCW 0612 AT
0406
0612
Metric size code
RR1016M
RR1632M
Resistance range
0.33 to 0.91
Resistance tolerance
0.10 to 0.91
±1%
Temperature coefficient
± 50 ppm/K
Rated dissipation P85 (1)
0.3 W
Operating voltage, Umax. ACRMS/DC
1W
Limited by P85
Permissible film temperature, F max. (1)
175 °C
Operating temperature range
-55 °C to 175 °C
Internal thermal resistance (1)
30 K/W
TBD
Permissible voltage against ambient
(insulation):
1 min; Uins
75 V
Note
(1) Please refer to APPLICATION INFORMATION below
APPLICATION INFORMATION
When the resistor dissipates power, a temperature rise above the ambient temperature occurs, dependent on the thermal
resistance of the assembled resistor together with the printed circuit board. The rated dissipation applies only if the permitted
film temperature is not exceeded.
Please consider the application note “Thermal Management in Surface-Mounted
(www.vishay.com/doc?28844) for information on the general nature of thermal resistance.
Resistor
Applications”
These resistors do not feature a limited lifetime when operated within the permissible limits. However, resistance value drift
increasing over operating time may result in exceeding a limit acceptable to the specific application, thereby establishing a
functional lifetime.
Revision: 03-Mar-2020
Document Number: 28849
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MAXIMUM RESISTANCE CHANGE AT RATED DISSIPATION
OPERATION MODE
Rated dissipation
STANDARD
ADVANCED
TEMPERATURE
P70
P70
P85
NCW 0406 AT
0.2 W
0.25 W
0.3 W
NCW 0612 AT
0.5 W
0.75 W
1.0 W (1)
-55 °C to 125 °C
-55 °C to 155 °C
-55 °C to 175 °C
125 °C
155 °C
175 °C
NCW 0406 AT
0.33 to 0.91
0.33 to 0.91
0.33 to 0.91
NCW 0612 AT
0.10 to 0.91
0.10 to 0.91
0.10 to 0.91
1000 h
0.15 %
0.3 %
0.5 %
8000 h
0.25 %
0.5 %
-
225 000 h
1.0 %
-
-
Operating temperature range
Permissible film temperature, F max.
Max. resistance change at P70 for
resistance range, |R/R| after:
POWER
Notes
• The presented operation modes do not refer to different types of resistors, but actually show examples of different loads, that lead to
different film temperatures and different achievable load-life stability (drift) of the resistance value. A suitable low thermal resistance of the
circuit board assembly must be safeguarded in order to maintain the film temperature of the resistors within the specified limits. Please
consider the application note “Thermal Management in Surface-Mounted Resistor Applications” (www.vishay.com/doc?28844) for
information on the general nature of thermal resistance
(1) Specified power rating requires a thermal resistance R 90 K/W of the circuit board assembly
th
The resistance value of low ohmic precision resistors is influenced by the resistance of the terminations. The exact resistance
value of the soldered part on the PCB may deviate depending on e.g. solder quantity, pad layout, and soldering method. The
resistance value of the unmounted part can be verified by a 4-point probe on the top side termination as shown below.
Y
X
Fig. 1
DIMENSIONS FOR 4-POINT PROBE
TYPE / SIZE
X
(μm)
Y
(μm)
NCW 0406 AT
870
600
NCW 0612 AT
1300
1240
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TEMPERATURE COEFFICIENT AND RESISTANCE RANGE
TYPE / SIZE
TCR
TOLERANCE
RESISTANCE
E-SERIES
NCW 0406 AT
± 50 ppm/K
±1%
0.33 to 0.91
E24
NCW 0612 AT
± 50 ppm/K
±1%
0.10 to 0.91
E24; E96
PACKAGING
TYPE / SIZE
CODE
QUANTITY
P5
5000
WIDTH
PACKAGING
DIMENSIONS
PITCH
Ø 180 mm / 7"
NCW 0406 AT
NCW 0612 AT
PACKAGING STYLE
PW
20 000
P5
5000
Tape and reel
cardboard tape acc.
IEC 60286-3, type 1a
8 mm
4 mm
Ø 330 mm / 13"
Ø 180 mm / 7"
PART NUMBER AND PRODUCT DESCRIPTION
Part Number: NCW0406MC3307FP500
N
C
W
0
4
0
6
M
C
3
3
0
7
F
P
5
0
0
TYPE / SIZE
VERSION
TCR
RESISTANCE
TOLERANCE
PACKAGING
NCW0406
NCW0612
M = AT automotive
C = ± 50 ppm/K
3 digit value
1 digit multiplier
F=±1%
P5
PW
Multiplier
7 = *10-3
Product Description: NCW 0406-50 1 % AT P5 0R33
NCW
0406
-50
1%
AT
P5
0R33
TYPE
SIZE
TCR
TOLERANCE
VERSION
PACKAGING
RESISTANCE
NCW
0406
0612
± 50 ppm/K
±1%
AT = automotive
P5
PW
0R33 = 0.33
Note
• Products can be ordered using either the PART NUMBER or PRODUCT DESCRIPTION
Revision: 03-Mar-2020
Document Number: 28849
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DESCRIPTION
Production is strictly controlled and follows an extensive set
of instructions established for reproducibility. A
homogeneous film of special metal alloy is deposited on a
high grade ceramic substrate (Al2O3) and conditioned to
achieve the desired temperature coefficient. Specially
designed inner contacts are deposited on both sides. A
special laser is used to achieve the target value by smoothly
cutting a meander groove in the resistive layer without
damaging the ceramics. The resistor elements are covered
by a unique protective coating designed for electrical,
mechanical, and climatic protection. The terminations
receive a final pure matte tin on nickel plating. The result of
the determined production is verified by an extensive testing
procedure and optical inspection performed on 100 % of the
individual chip resistors. Only accepted products are laid
directly into the paper tape in accordance with IEC 60286-3
Type 1a (1).
ASSEMBLY
The resistors are suitable for processing on automatic SMD
assembly systems. They are suitable for automatic
soldering using reflow or vapor phase as shown in
IEC 61760-1 (1). The encapsulation is resistant to all
cleaning solvents commonly used in the electronics
industry, including alcohols, esters and aqueous solutions.
The suitability of conformal coatings, potting compounds
and their processes, if applied, shall be qualified by
appropriate means to ensure the long-term stability of the
whole system.
The resistors are RoHS-compliant; the pure matte tin plating
provides compatibility with lead (Pb)-free and lead
containing soldering processes. Solderability is specified for
2 years after production or requalification. The permitted
storage time is 20 years. The immunity of the plating against
tin whisker growth has been proven by extensive testing.
MATERIALS
Vishay acknowledges the following systems for the
regulation of hazardous substances:
• IEC 62474, Material Declaration for Products of and for the
Electrotechnical Industry, with the list of declarable
substances given therein (2)
• The Global Automotive Declarable Substance List
(GADSL) (3)
• The REACH regulation (1907/2006/EC) and the related list
of substances with very high concern (SVHC) (4) for its
supply chain
Vishay Beyschlag
The products do not contain any of the banned substances
as per IEC 62474, GADSL, or the SVHC list, see
www.vishay.com/how/leadfree.
Hence the products fully comply with the following
directives:
• 2000/53/EC End-of-Life Vehicle Directive (ELV) and
Annex II (ELV II)
• 2011/65/EU Restriction of the Use of Hazardous
Substances
Directive
(RoHS)
with
amendment
2015/863/EU
• 2012/19/EU Waste Electrical and Electronic Equipment
Directive (WEEE)
Vishay pursues the elimination of conflict minerals from its
supply chain, see the Conflict Minerals Policy at
www.vishay.com/doc?49037.
APPROVALS
Where applicable the resistors are tested within the
IECQ-CECC Quality Assessment System for Electronic
Components to the detail specification EN 140401-801
which refers to EN 60115-1, EN 60115-8 and the variety of
environmental test procedures of the IEC 60068 (1) series.
The detail specification refers to the climatic category
55/125/56, which relates to the “standard operation mode”
of this datasheet. The NCW 0406 AT is AEC-Q200 qualified.
Vishay BEYSCHLAG has achieved “Approval of
Manufacturer” in accordance with IECQ 03-1. The release
certificate for “Technology Approval Schedule” in
accordance with CECC 240001 based on IECQ 03-3-1 is
granted for the Vishay BEYSCHLAG manufacturing
process.
RELATED PRODUCTS
For more information about wide terminal precision resistors
with higher resistance values please refer to the following
datasheets:
• MCW AT Precision
(www.vishay.com/doc?28847)
• MCW AT Professional
(www.vishay.com/doc?28796)
Notes
(1) The quoted IEC standards are also released as EN standards with the same number and identical contents
(2) The IEC 62474 list of declarable substances is maintained in a dedicated database, which is available at http://std.iec.ch/iec62474
(3) The Global Automotive Declarable Substance List (GADSL) is maintained by the American Chemistry Council and available at www.gadsl.org
(4) The SVHC list is maintained by the European Chemical Agency (ECHA) and available at http://echa.europa.eu/candidate-list-table
Revision: 03-Mar-2020
Document Number: 28849
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THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
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www.vishay.com
Vishay Beyschlag
Power Dissipation P in %
FUNCTIONAL PERFORMANCE
120
100
80
60
40
20
0
-50
0
50
70
100
125
155
175
Ambient Temperature in °C
Power Dissipation P in %
Derating - Standard Mode
120
100
80
60
40
20
0
-50
0
50
70
100
125
155
175
Ambient Temperature in °C
Power Dissipation P in %
Derating - Power Mode
120
100
80
60
40
20
0
-50
0
50
85 100
125
155
175
Ambient Temperature in °C
Derating - Advanced Temperature Mode
Revision: 03-Mar-2020
Document Number: 28849
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Vishay Beyschlag
TESTS AND REQUIREMENTS
All tests are carried out in accordance with the following
specifications:
The testing also covers most of the requirements specified
by EIA / ECA-703 and JIS-C-5201-1.
EN 60115-1, generic specification
The tests are carried out under standard atmospheric
conditions in accordance with IEC 60068-1, 4.3, whereupon
the following values are applied:
EN 60115-8
specification
(successor
of
EN 140400),
sectional
EN 140401-801, detail specification
Temperature: 15 °C to 35 °C
IEC 60068-2-xx, test methods
Relative humidity: 25 % to 75 %
The parameters stated in the Test Procedures and
Requirements table are based on the required tests and
permitted limits of EN 140401-801. The table presents only
the most important tests, for the full test schedule refer to
the documents listed above. However, some additional
tests and a number of improvements against those
minimum requirements have been included.
Air pressure: 86 kPa to 106 kPa (860 mbar to 1060 mbar).
A climatic category LCT / UCT / 56 is applied, defined by the
lower category temperature (LCT), the upper category
temperature (UCT), and the duration of exposure in the
damp heat, steady state test (56 days).
The components are mounted for testing on printed circuit
boards in accordance with EN 60115-8, 2.4.2, unless
otherwise specified.
TEST PROCEDURES AND REQUIREMENTS
EN
60115-1
CLAUSE
IEC
60068-2 (1)
TEST
METHOD
TEST
PROCEDURE
REQUIREMENTS
PERMISSIBLE CHANGE (R)
Stability for product types:
NCW 0406 AT
0.33 to 0.91
NCW 0612 AT
0.10 to 0.91
4.5
-
Resistance
-
±1%R
4.8
-
Temperature
coefficient
At (20 / -55 / 20) °C and
(20 / 155 / 20) °C
± 50 ppm/K
Endurance at 70 °C:
Standard operation mode
U = P 70 x R ;
1.5 h on; 0.5 h off;
70 °C; 1000 h
70 °C; 8000 h
± (0.15 % R + 0.05 )
± (0.25 % R + 0.05 )
Endurance at 70 °C:
Power operation mode
U = P 70 x R ;
1.5 h on; 0.5 h off;
70 °C; 1000 h
70 °C; 8000 h
± (0.3 % R + 0.05 )
± (0.5 % R + 0.05 )
Endurance at 85 °C:
Advanced temperature
operation mode
U = P 85 x R ;
1.5 h on; 0.5 h off;
85 °C; 1000 h
± (0.5 % R + 0.05 )
-
Endurance at
upper category temperature
125 °C; 1000 h
155 °C; 1000 h
175 °C; 1000 h
± (0.15 % R + 0.02 )
± (0.3 % R + 0.05 )
± (0.5 % R + 0.05 )
4.24
78 (Cab)
Damp heat, steady state
(40 ± 2) °C; 56 days;
(93 ± 3) % RH
± (0.1 % R + 0.05 )
4.37
67 (Cy)
Damp heat,
steady state,
accelerated:
Standard operation mode
(85 ± 2) °C
(85 ± 5) % RH
U = 0.1 x P 70 x R ;
U 0.3 x Umax.; 1000 h
± (0.5 % R + 0.05 )
4.25.1
4.25.3
-
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TEST PROCEDURES AND REQUIREMENTS
EN
60115-1
CLAUSE
IEC
60068-2 (1)
TEST
METHOD
TEST
PROCEDURE
REQUIREMENTS
PERMISSIBLE CHANGE (R)
Stability for product types:
NCW 0406 AT
0.33 to 0.91
NCW 0612 AT
0.10 to 0.91
Climatic sequence:
Standard operation mode:
4.23
4.23.2
2 (Bb)
Dry heat
UCT; 16 h
4.23.3
30 (Db)
Damp heat, cyclic
55 °C; 24 h; 90 % RH;
1 cycle
4.23.4
1 (Ab)
Cold
LCT; 2 h
4.23.5
13 (M)
Low air pressure
8.5 kPa; 2 h; (25 ± 10) °C
4.23.6
30 (Db)
Damp heat, cyclic
55 °C; 24 h 90 % RH;
5 cycles
± (0.5 % R + 0.05 )
U=
4.23.7
-
4.19
-
DC load
1 (Ab)
Storage at low
temperature
-55 °C; 2 h
± (0.1 % R + 0.01 )
Rapid change
of temperature
30 min at -55 °C;
30 min at 155 °C;
1000 cycles
± (0.25 % R + 0.05 )
Extended rapid change
of temperature
30 min at -40 °C;
30 min at 125 °C;
NCW 0406 AT: 3000 cycles (2)
NCW 0612 AT: TBD
± (0.25 % R + 0.05 );
( 50 % of initial shear force)
14 (Na)
Short time overload:
Standard operation mode
4.13
Short time overload:
Power operation mode
4.38
4.22
4.17
4.18
P 70 x R Umax.;
1 min;
LCT = -55 °C;
UCT = 125 °C
-
6 (Fc)
58 (Td)
58 (Td)
Revision: 03-Mar-2020
U = 2.5 x P 70 x R
2 x Umax.; 5 s
± (0.1 % R + 0.01 )
± (0.25 % R + 0.05 )
Electro Static Discharge
(Human Body Model)
IEC 61340-3-1 (1);
3 pos. + 3 neg.
(equivalent to MIL-STD-883,
method 3015)
500 V
± (0.5 % R + 0.05 )
Vibration
Endurance by sweeping;
10 Hz to 2000 Hz;
no resonance;
amplitude 1.5 mm or
200 m/s2; 7.5 h
± (0.1 % R + 0.01 )
no visible damage
Solder bath method;
SnPb40; non-activated flux
(215 ± 3) °C; (3 ± 0.3) s
Good tinning ( 95 % covered);
no visible damage
Solder bath method;
SnAg3Cu0.5 or SnAg3.5;
non-activated flux;
(235 ± 3) °C; (2 ± 0.2) s
Good tinning ( 95 % covered);
no visible damage
Solder bath method;
(260 ± 5) °C; (10 ± 1) s
± (0.1 % R + 0.02 )
no visible damage
Solderability
Resistance to soldering heat
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TEST PROCEDURES AND REQUIREMENTS
EN
60115-1
CLAUSE
IEC
60068-2 (1)
TEST
METHOD
TEST
PROCEDURE
REQUIREMENTS
PERMISSIBLE CHANGE (R)
Stability for product types:
NCW 0406 AT
0.33 to 0.91
NCW 0612 AT
0.10 to 0.91
4.29
45 (XA)
Component solvent
resistance
Isopropyl alcohol +50 °C;
method 2
No visible damage
4.32
21 (Ue3)
Shear (adhesion)
9N
No visible damage
4.33
21 (Ue1)
Substrate bending
Depth 2 mm, 3 times
± (0.1 % R + 0.01 )
no visible damage;
no open circuit in bent position
4.7
-
Voltage proof
URMS = Uins; (60 ± 5) s
No flashover or breakdown
4.35
-
Flammability
Needle flame test; 10 s
No burning after 30 s
Notes
• Resistance measured in mounted condition
(1) The quoted IEC standards are also released as EN standards with the same number and identical contents
(2) Tested on a 4-layer printed circuit board with SAC micro alloy
Revision: 03-Mar-2020
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DIMENSIONS
Tt
W
WT
H
Tb
L
DIMENSIONS AND MASS
H
(mm)
L
(mm)
W
(mm)
WT
(mm)
Tt
(mm)
Tb
(mm)
MASS
(mg)
NCW 0406 AT
0.32 ± 0.05
1.0 ± 0.15
1.5 ± 0.15
> 75 % of W
0.2 + 0.1/- 0.15
0.2 ± 0.1
1.9
NCW 0612 AT
0.45 ± 0.15
1.6 ± 0.15
3.1 ± 0.15
> 75 % of W
0.25 ± 0.15
0.3 ± 0.15
9.0
TYPE / SIZE
SOLDER PAD DIMENSIONS
X
G
Y
Z
RECOMMENDED SOLDER PAD DIMENSIONS
REFLOW SOLDERING
TYPE / SIZE
G
(mm)
Y
(mm)
X
(mm)
Z
(mm)
NCW 0406 AT
0.35
0.55
1.75
1.45
NCW 0612 AT
0.75
0.7
3.3
2.15
Notes
• The given solder pad dimensions reflect the considerations for board design and assembly as outlined e.g. in standards IEC 61188-5-x (1),
or in publication IPC-7351
(1)
The quoted IEC standards are also released as EN standards with the same number and identical contents
Revision: 03-Mar-2020
Document Number: 28849
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�Legal Disclaimer Notice
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Vishay
Disclaimer
ALL PRODUCT, PRODUCT SPECIFICATIONS AND DATA ARE SUBJECT TO CHANGE WITHOUT NOTICE TO IMPROVE
RELIABILITY, FUNCTION OR DESIGN OR OTHERWISE.
Vishay Intertechnology, Inc., its affiliates, agents, and employees, and all persons acting on its or their behalf (collectively,
“Vishay”), disclaim any and all liability for any errors, inaccuracies or incompleteness contained in any datasheet or in any other
disclosure relating to any product.
Vishay makes no warranty, representation or guarantee regarding the suitability of the products for any particular purpose or
the continuing production of any product. To the maximum extent permitted by applicable law, Vishay disclaims (i) any and all
liability arising out of the application or use of any product, (ii) any and all liability, including without limitation special,
consequential or incidental damages, and (iii) any and all implied warranties, including warranties of fitness for particular
purpose, non-infringement and merchantability.
Statements regarding the suitability of products for certain types of applications are based on Vishay's knowledge of typical
requirements that are often placed on Vishay products in generic applications. Such statements are not binding statements
about the suitability of products for a particular application. It is the customer's responsibility to validate that a particular product
with the properties described in the product specification is suitable for use in a particular application. Parameters provided in
datasheets and / or specifications may vary in different applications and performance may vary over time. All operating
parameters, including typical parameters, must be validated for each customer application by the customer's technical experts.
Product specifications do not expand or otherwise modify Vishay's terms and conditions of purchase, including but not limited
to the warranty expressed therein.
Hyperlinks included in this datasheet may direct users to third-party websites. These links are provided as a convenience and
for informational purposes only. Inclusion of these hyperlinks does not constitute an endorsement or an approval by Vishay of
any of the products, services or opinions of the corporation, organization or individual associated with the third-party website.
Vishay disclaims any and all liability and bears no responsibility for the accuracy, legality or content of the third-party website
or for that of subsequent links.
Except as expressly indicated in writing, Vishay products are not designed for use in medical, life-saving, or life-sustaining
applications or for any other application in which the failure of the Vishay product could result in personal injury or death.
Customers using or selling Vishay products not expressly indicated for use in such applications do so at their own risk. Please
contact authorized Vishay personnel to obtain written terms and conditions regarding products designed for such applications.
No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this document or by
any conduct of Vishay. Product names and markings noted herein may be trademarks of their respective owners.
© 2021 VISHAY INTERTECHNOLOGY, INC. ALL RIGHTS RESERVED
Revision: 09-Jul-2021
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