Instructional Guide

V i s h ay Intertec h n o l o g y, Inc .
Resistors - For Applications in all Market Sectors
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Resistive Products
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RESISTORS 101
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62-2012
Vishay Dale, Vishay Electro Films (EFI),
Vishay Dale Thin Film (VTF), Vishay Techno, Vishay Angstrohm,
Vishay Huntington, Vishay Mills, Vishay Milwaukee
What is a Resistor?
The resistor is the most common and well-known of the passive electrical components.
A resistor resists or limits the flow of electric current in a circuit. There are many uses for
resistors: they are used to drop voltage, limit current, attenuate signals, act as heaters,
act as fuses, furnish electrical loads and divide voltages.
Resistor symbol (US and Japan)
Resistor symbol (Europe)
Introduction
This Resistors 101 provides an overview of the resistor types and common terminology,
before going on to show a summary of resistor products and the various technologies.
Resources
• For additional information and the respective datasheets, refer to
the Vishay website - http://www.vishay.com
• For technical questions on Film and Networks products: [email protected]
• For technical questions on Wirewound products: [email protected]
• Sales Contacts: http://www.vishay.com/doc?99914
One of the World’s Largest Manufacturers of
Discrete Semiconductors and Passive Components
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V i s h ay Intertec h n o l o g y, Inc .
Resistors - For Applications in all Market Sectors
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Resistive Products
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RESISTORS 101
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What is Ohm’s Law?
• Ohm’s law is a simple equation that shows the relationship between resistance, voltage and current through a metal
wire, or some other type of resistive material. In mathematical terms, Ohm’s law is written as:
I = V/R
where I is the current (amps), V is the voltage, and R is the resistance.
• Ohm’s law can also show the relationship between resistance, voltage and power using the following equation:
P = V 2/R
where P is the power (watts), V is the voltage, and R is the resistance.
P = Watts
I = Amperes
Watts = Volts²
Ohms
Amperes =
Watts = Amperes² x Ohms
Watts = Volts x Amperes
I²•R
V²/R
√P•R
V = Volts
Volts =
Volts =
√ Watts x Ohms
P/I
V•I V/R
P
I
Watts
Amps
Volts
Ohms
P/V
V/I
√
√P/R
P/I²
V R
I•R
Volts
Ohms
Amperes = Watts
Volts
Watts
Amperes =
Ohms
V²/P
Watts
Amperes
Volts = Amperes x Ohms
R = Ohms
Volts
Amperes
2
Ohms = Volts
Watts
Ohms = Watts 2
Amperes
Ohms =
Types of Resistors
Fixed Resistors
A fixed resistor is one in which the value of its resistance cannot change.
Variable Resistors
A variable resistor is a resistor whose value can be adjusted by turning a shaft or sliding a control. They are also called
potentiometers or rheostats and allow the resistance of the device to be altered by hand.
Non-Linear Resistors
A non-linear resistor is a resistor that has resistances that vary significantly with applied voltage, temperature or light.
Types of non-linear resistors are varistors, thermistors and photoresistors.
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This document is subject to change without notice. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO
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V i s h ay Intertec h n o l o g y, Inc .
Resistors - For Applications in all Market Sectors
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Resistive Products
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RESISTORS 101
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Common Resistor Terminology
Critical Resistance Value
The maximum nominal resistance value at which the rated power can be loaded without exceeding the maximum working
voltage. The rated voltage is equal to the maximum working voltage in the critical resistance value.
Derating Curve
The curve that expresses the relation between the ambient temperature and the maximum value of continuously loadable
power at its temperature, which is generally expressed as a percentage.
Dielectric Withstanding Voltage
The rated voltage that can be applied to a designated point between the resistive element and the outer coating, or the
resistive element and the mounting surface, without causing dielectric breakdown.
Maximum Overload Voltage
The maximum value of voltage capable of being applied to resistors for a short period of time in the overload test.
Typically the applied voltage in the short time overload test is 2.5 times larger than the rated voltage. However, it should
not exceed the maximum overload voltage.
Maximum Working Voltage (or Maximum Limiting Element Voltage)
The maximum value of DC voltage or AC voltage (rms) capable of being applied continuously to resistors or element.
However, the maximum value of the applicable voltage is the rated voltage at the critical resistance value or lower.
Noise
Noise is an unwanted AC signal from within the resistor. Resistive noise can have a devastating effect on low-level
signals, charge amplifiers, high gain amplifiers, and other applications sensitive to noise. The best approach is to use
resistor types with low or minimal noise in applications that are sensitive to noise.
Power Rating
Power ratings are based on physical size, allowable change in resistance over life, thermal conductivity of materials,
insulating and resistive materials, and ambient operating conditions. For best results, employ the largest physical size
resistors at less than their maximum rated temperature and power.
Rated Ambient Temperature
The maximum ambient temperature at which resistors are capable of being used continuously with the prescribed rated
power. The rated ambient temperature refers to the temperature around the resistors inside the equipment, not to the air
temperature outside the equipment.
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V i s h ay Intertec h n o l o g y, Inc .
Resistors - For Applications in all Market Sectors
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INNOVAT
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Resistive Products
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RESISTORS 101
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62-2012
Common Resistor Terminology
Rated Power
The maximum amount of power that can be continuously loaded to a resistor at a rated ambient temperature. Network
and array products have both rated power per package as well as per element.
Rated Voltage
The maximum value of DC voltage or AC voltage (rms) capable of being applied continuously to resistors at the rated
ambient temperature.
Reliability
Reliability is the probability that a resistor (or any other device) will perform its desired function. There are two ways of
defining reliability. One is Mean Time Between Failures (MTBF) and the other is Failure Rate per 1000 hours of operation.
Both of these means of evaluating reliability must be determined with a specific group of tests and a definition of what
is the end of life for a device, such as a maximum change in resistance or a catastrophic failure (short or open). Various
statistical studies are used to arrive at these failure rates and large samples are tested at the maximum rated temperature
with rated load for up to 10 000 hours (24 hours per day for approximately 13 months). Reliability is generally higher at
lower power levels.
Resistor Tolerance
Resistor tolerance is expressed as the deviations from nominal value in percent and is typically measured at 25 °C.
A resistor’s value will also change with applied voltage (VCR) and temperature (TCR). For networks, absolute resistor
tolerance refers to the overall tolerance of the network. Ratio tolerance refers to the relationship of each resistor to the
others in the package.
Stability
Stability is the change in resistance with time at a specific load, humidity level, stress, or ambient temperature. When
these stresses are minimized, the better the stability.
Temperature Coefficient of Resistance (TCR also known as RTC)
TCR is expressed as the change in resistance in ppm (0.0001 %) with each degree Celsius of change in temperature.
TCR is typically referenced at + 25 ˚C and changes as the temperature increases (or decreases). A resistor with a TCR of
100 ppm/°C will change 0.1 % over a 10 °C change and 1 % over a 100 °C change. In the context of a resistor network,
the TCR value is called the absolute TCR in that it defines the TCR of a specific resistor element. The term TCR tracking
refers to the difference in TCR between each specific resistor in a network.
Temperature Rating
Temperature rating is the maximum allowable temperature at which the resistor may be used. It is generally defined with
two temperatures. For example, a resistor may be rated at full load up to + 70 °C derated to no load at + 125 °C. This
means that with certain allowable changes in resistance over the life of the resistor, it may be operated at + 70 °C at rated
power. It also may be operated with temperatures in excess of + 70 °C if the load is reduced, but in no case should the
temperature exceed the design temperature of + 125 ˚C with a combination of ambient temperature and self-heating due
to the applied load.
Voltage Coefficient of Resistance (VCR)
The voltage coefficient is the change in resistance with applied voltage. This is entirely different and in addition to the
effects of self-heating when power is applied. A resistor with a VCR of 100 ppm/V will change 0.1 % over a 10 V change
and 1 % over a 100 V change. In the context of a resistor network, this VCR value is called the absolute VCR in that
it defines the VCR of a specific resistor element. The term VCR tracking refers to the difference in VCR between each
specific resistor in a network.
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V i s h ay Intertec h n o l o g y, Inc .
Resistors - For Applications in all Market Sectors
AND TEC
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Product Over view
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RESISTORS 101
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Surface Mount / Substrates / Wirebondable Resistors
Technology *
Thick Film (Chips)
Thick Film (Networks)
Thin Film (Chips)
Thin Film (Networks)
Examples of
Vishay Models
Resistance
Range
Best Tolerance
(%)
Best TCR
(ppm/°C)
Strengths
RCWP,
RCWPM,
RC, CRHV, M,
CRMV
0.1 Ω to 50 GΩ
±1
± 100
• General purpose
• Wide resistance range
• Performance at
high frequency
DFP, DFM,
SOMC, SOGC,
CZA
10 Ω to 1 MΩ
±1
± 100
• General purpose
±5
• Stability
• Performance at
high frequency
• High density
E/H, P-NS,
PTN, FC,
L-NS, PAT,
PLT, PLTT,
PNM
0.03 Ω to 3 MΩ
± 0.01
ORN, NOMC,
TOMC, OSOP,
MPM, MP,
MPD, MPH,
PR, LCC,
FP200, VR,
VTSR, VSSR,
VSOR
10 Ω to 1.5 MΩ
± 0.02
±5
• Stability
• Performance at
high frequency
• High density
• Tight ratio tolerances
• Tight tcr tracking
• Integrated
construction
SFM, BCR,
CTR
0.1 Ω to 25 MΩ
± 0.05
± 10
• Small footprint
SPF, PSS, INT
0.1 Ω to 2 MΩ
± 0.05
± 10
• Low noise
• Better tracking
WSC, WSN,
WSZ
0.1 Ω to 15 kΩ
± 0.1
± 20
• High power ratings
• Performance in harsh
environments
WSF, PSF
5 Ω to 100 kΩ
± 0.01
±5
• Stability
• Performance at
high frequency
WSL, WSR,
WSK, WSH,
WSLP, WSLT,
WSLS, WSBS,
WSMS
0.00005 Ω
to 1 Ω
± 0.1
± 30
• Current sensing
• Ultra low values
Thin Film (Wirebondable)
Thin Film (Substrates)
Wirewound
Metal Film
Power Metal Strip®
*
Resistor technology also offered by other divisions of Vishay
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V i s h ay Intertec h n o l o g y, Inc .
Resistors - For Applications in all Market Sectors
AND TEC
I
INNOVAT
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Product Over view
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RESISTORS 101
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62-2012
Axial Leaded / Through-Hole Resistors
Technology *
Metal Film
High Voltage, High
Pulse Films
Examples of
Vishay Models
Resistance
Range
CMF, PTF, CCF,
ERL, ERC,
GSR, HDN
0.1 Ω to 50 MΩ
Best
Tolerance
(%)
± 0.01
Best TCR
(ppm/°C)
±5
• General purpose
• Wide resistance range
• Good high frequency
characteristics
CPF, FP, HVW,
MVW, TR, TD, FHV
0.1 Ω to 3 TΩ
± 0.1
± 25
• Pulse resistant
• Flameproof
• Good high frequency
characteristics
• High power
ROX, RNX, RJU
100 Ω to 3 GΩ
± 0.5
± 50
• High voltage
• High resistance values
G, D, B, T, SPW
50 Ω to 500 MΩ
±5
> ± 250
• High power
• High wattages
• High resistance values
CSC, MSP, MSM,
MDP, MDM, TxxS,
T14L, T16L
10 Ω to 2.2 MΩ
±1
± 100
• General purpose
• Wide resistance range
• High frequency
±5
• Low noise
• Stability
• High frequency
• Tight ratio tolerances
• Tight tcr tracking
±2
• Wide power ranges
• Wide resistance range
• Excellent overload
capabilities
± 30
• Wide power ranges
• Wide resistance range
• Excellent overload
capabilities
± 20
• Wide power ranges
• Wide resistance range
• Excellent overload
capabilities
± 30
• Wide power ranges
• Excellent overload
capabilities
• Low ohmic values
Metal Oxide
Carbon Film
Thick Film (Networks)
Thin Film (Networks)
TSP, VTF, TDP, CS,
HVPS, HD,
100-267, 100-268
Wirewound
Wirewound (Tubular)
20 Ω to 10 MΩ
RW, RWR, G, RS,
CW, CP, CA, CPR,
CPL, CPCx, MR,
MRA
HL, HLW, HLZ,
FxE, FxT, AxE, AxT,
CMx, Fx
0.01 Ω to 6 MΩ
0.05 Ω to 645 kΩ
± 0.01
± 0.005
±5
Wirewound (Housed)
RH, RE, RER
0.01 Ω to 273 kΩ
± 0.05
Metal Element
LVR, SR,
SPU Open,
SPU Molded
*
Strengths
0.001 Ω to 0.8 Ω
± 0.1
Resistor technology also offered by other divisions of Vishay
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V i s h ay Intertec h n o l o g y, Inc .
Resistors - For Applications in all Market Sectors
AND TEC
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INNOVAT
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Technologies
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RESISTORS 101
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62-2012
Fixed Resistor Technologies
Wirewound (Surface-Mount / Leaded)
A type of resistor made from winding a metal wire, such as nichrome, on an insulating form,
such as a ceramic, plastic, or fiberglass core.
Power Metal Strip® / Metal Element (Surface-Mount / Leaded)
A type of resistor constructed using a solid metal alloy, such as nichrome or manganesecopper, as the resistive element, which is then welded to copper terminals. Used in current
sense and shunt applications.
Film (Surface-Mount / Leaded)
Metal Film (Leaded/MELF)
A type of cylindrical resistors made by depositing a resistive element made of a thin conducting
film of a metal or metal alloy, such as nichrome, onto a cylindrical ceramic or glass core. The
resistance is controlled by cutting a helical groove through the conducting film.
Metal Oxide (Leaded)
A type of cylindrical resistor that uses materials such as ruthenium oxide or tin oxide as the resistive
element. These resistors can be excellent high-voltage or high-power devices.
Thick Film (Chip Resistors/Chip Arrays/Networks)
Specially built surface-mount film resistor that carries high power for the part size.
For thick film resistors, the ruthenium oxide “film” is applied using traditional screen-printing
technology.
Thin Film (Chip Resistors/Chip Arrays/Networks)
A type of surface-mount film resistor with a relatively thin resistive element, measured in
angstroms (millionths of an inch). Thin film resistors are made by sputtering (also known as
vacuum deposition) a resistive material, such as nichrome or tantalum nitride, onto the surface of a
substrate.
Carbon Film (Leaded/MELF)
A general class description for cylindrical resistors made by depositing a carbon film on the surface of a center
core insulator.
Metal Foil (Surface Mount/Leaded)
A type of resistor made from photo fabricating a homogeneous metal in a specific pattern onto a ceramic substrate.
The unique combination of materials and construction results in a product with unmatched performance characteristics
and high reliability.
Composition (Leaded)
Carbon Composition
A general class description for resistors consisting of a carbon mixture resistive core and a molded outer insulating core.
Ceramic Composition
A type of resistor that consists of a clay, alumina, and carbon mixture that has been blended and pressurized into a
resistive core and then covered with a molded outer insulating core.
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This document is subject to change without notice. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO
SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
V i s h ay Intertec h n o l o g y, Inc .
Resistors - For Applications in all Market Sectors
I
INNOVAT
AND TEC
O L OGY
Resistive Products
N
HN
RESISTORS 101
O
19
62-2012
Worldwide Sales Contacts
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United states
Germany
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One Greenwich Place
Shelton, CT 06484
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Ph: +1-402-563-6866
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Ph: +49-9287-71-0
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Japan
Ph: +81-3-5466-7150
fax: +81-3-5466-7160
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