Ultra High Precision, Z-Foil Audio Resistor Minimizes Noise and
Distortion in the Signal Path with TCR of ± 0.05 ppm/°C, Tolerance
to ± 0.005 % and High Linearity or Low Voltage Coefficient of
Resistance (VCR) of 0.1 ppm/V
VAR
Vishay Foil Resistors
Document Number: 63140 For any questions, contact: foil@vishaypg.com www.vishayfoilresistors.com
Revision: 03-Jan-12 1
INTRODUCTION
Many manufacturers and users of precision electronic
equipment suffer needlessly from unexplained instabilities
and drifts due to noise effects. They resign themselves to
making constant adjustments and troubleshooting. But in
fact these can be avoided. Instability is often traceable to a
few supposedly “fixed” resistors which are not really fixed at
all. If these resistors would only retain their original values,
there would be no need for costly controls and other
compensating circuitry. That’s why the only resistor for
applications such as these is Vishay Bulk Metal® Foil. In
high-end audio equipment, careful selection of resistors is
one of the best ways to avoid or minimize noise and
distortion in the signal path. Noise is an unwanted wide
spectrum signal that may be superimposed on any useful
signal, including DC. Resistors, like other passive
components, are noise sources to various degrees,
depending upon resistance value, temperature, applied
voltage, and resistor type. Many experiments have been
done to show why some resistors are “noisier” than others.
But the only test that audio experts and audiophiles have
agreed on is comparing the level of fidelity that results when
different resistor technologies are used in actual audio
systems.
High-end analog audio applications require low intrinsic
noise, high linearity of amplification, and minimal dynamic
distortion. The typical audio amplifier consists of a voltage
preamplifier (preamp) and power amplifier (final driver). The
voltage preamplifier deals with low-level signals. That is why
its intrinsic noise level is critical. Resistors are among the
principal noise sources in the amplifiers. The main
requirements for the audio power amplifier are high linearity
of amplification and minimal dynamic distortion. Vishay Foil
resistors are characterized by very low intrinsic non-linearity
of the resistive element, which is made from cold-rolled bulk
metal.
The VAR, composed of Vishay’s Bulk Metal® Z-foil
technology, with improved sound quality, provides a
combination of low noise and low inductance/capacitance,
making it unrivalled for applications requiring low noise and
distortion-free properties.
FEATURES
Temperature coefficient of resistance (TCR):
± 0.05 ppm/°C typical (0 °C to + 60 °C,+ 25 °C
ref.) ± 0.2 ppm/°C typical (0 °C to + 125 °C,
+ 25 °C ref.)
Rated power: to 0.4 W at + 70 °C
Resistance tolerance: to ± 0.01 % (0.005% is available)
Load life stability: to ± 0.005 % at 70 °C, 2000 h at rated
power
Resistance range: 10

to 100 k
"Naked Z-foil resistor" design without molding or
encapsulation adds an additional dimension for reducing
signal distortion and increasing clarity in signal processing.
Vishay Foil resistors are not restricted to standard values;
specific "as-required" values can be supplied at no extra
cost or delivery (e.g. 1K2345 vs 1K)
Electrostatic discharge (ESD) at least to 25 000 V
Non-inductive, non-capacitive design
Rise time: 1 ns, effectively no ringing
Current noise: 0.010 µV (RMS)/Volt of Applied Voltage
(< - 40 dB)
Thermal EMF: 0.05 µV/°C
Voltage coefficient: < 0.1 ppm/V
Thermal stabilization time < 1 s (nominal value achieved
within 10 ppm of steady state value)
Inductance: < 0.08 µH typical
The Z-Foil chip in the VAR has been especially treated to
increase load life stability.
Terminal Finish: lead (Pb)-free or tin/lead alloy(1)
Prototype quantities available in just 5 working days or
sooner. For more information, please contact
foil@vishaypg.com
For better performances please contact us.
VAR
Vishay Foil Resistors
www.vishayfoilresistors.com For any questions, contact: foil@vishaypg.com Document Number: 63140
2Revision: 03-Jan-12
While the regular foil resistors are already widely
acknowledged as the leading resistors for audio applications,
the special “naked Z-foil resistor” design without mold or
encapsulation, adds an additional dimension for reducing
signal distortion and increasing clarity in signal processing.
Our application engineering department is available to
advise and to make recommendations. For non-standard
technical requirements and special applications, please
contact us.
Bulk Metal Foil resistors owe their low current noise and high
linearity to the type of material they’re made of: a several
microns thick cold-rolled metal foil. Every real-world resistor
possesses certain nonlinearity of its electrical resistance
(nonlinearity of volt-ampere characteristic). The degree of
nonlinearity depends on two factors:
Micro factors: internal microstructure of resistive material.
Macro factors (laser trimming cuts cleanness, micro
cracking in resistive element resulting from laser trimming,
quality of contacts between resistive element and
terminals, etc.).
As for the microstructure, the most linear materials are pure
metals and metal alloys in bulk, such as the foil in Bulk
Metal® Foil resistors. When the same materials are
deposited in the form of very Thin (nanometer range) Films,
they are less linear. Even less linear are composite materials
like resistive cermets in Thick-Film resistors or carbon
compositions in carbon composition resistors.
The macro factors that cause nonlinearity in other types of
resistors aren’t relevant to foil resistors. Indeed, laser
trimming of foil resistors consists of cutting shorting jumpers
and does not damage current carrying portions of resistive
element. Terminals in foil resistors are an integral part of the
foil resistive element. This insures high-quality contact
between resistive element and terminals
Several types of noise are found in resistors:
Thermal noise is caused by thermal movement of electrons
in resistive material and gets worse as resistance and
temperature increase. Thermal noise can be reduced by
reducing resistance, temperature, or signal bandwidth.
Shot or fluctuation noise is caused by the discrete nature
of charge carriers and fluctuation of their number in the unit
of volume. Shot noise can be reduced by reducing bandwidth
or increasing current. The spectral density of voltage in both
thermal and shot noises is uniformly distributed in entire
range of frequencies (“white” noise). The level of these types
of noise does not depend on resistor type (resistive element
material).
Current (excess, flicker) noise has 1/f type spectral density
of voltage (“pink” noise). Its level essentially depends on
resistor material. Current noise can be reduced by a)
avoiding use of the low frequency band, b) reducing current,
c) increasing the volume of resistive material, i.e. by using
resistors with higher rated power than is needed for proper
power dissipation, or d) using less noisy resistive materials.
Carbon composition resistors are the noisiest such device
type followed by Thick Film and Thin Film resistors. The least
noisy are bulk metals and metal alloys (foil, wire). At that,
negligible capacitance/inductance of foil resistors (when
compared to wirewound resistors) significantly reduces
probability of self-excitation or "ringing" of amplification
circuit.This is why Bulk Metal® foil resistors are such a good
choice for low-noise applications.
FIGURE 1 - TYPICAL RESISTANCE /
TEMPERATURE CURVE
(Z-FOIL)
+ 500
+ 200
+ 100
0
- 100
- 200
- 300
- 500
- 55 - 25 + 25 + 60 + 75 + 100 + 125
Ambient Temperature (°C)
ΔR
R
(ppm)
0
0.05 ppm/°C
- 0.1 ppm/°C 0.1 ppm/°C
0.14 ppm/°C
0.2 ppm/°C- 0.16 ppm/°C
- 400
+ 300
+ 400
TCR chord slopes for different temperature ranges
TABLE 1 - RESISTANCE VERSUS TCR (- 55 °C to + 125 °C, + 25 °C Ref.)(2)
RESISTANCE VALUE
()TYPICAL TCR AND MAXIMUM SPREAD (ppm/°C) TIGHTEST TOLERANCE
(%)
100 to < 100K ± 0.2 ± 1.8 0.01
50 to < 100 ± 0.2 ± 2.8 0.01
10 to < 50 ± 0.2 ± 3.8 0.02
Note:
(1) Pb containing terminations are not RoHS compliant, exemptions may apply
(2) For non-standard requests, please contact application engineering at foil@vishaypg.com
FIGURE 2 - STANDARD DIMENSIONS
Lead Material #22 AWG
Round Solder Coated Copper
WL
LS
H
LL Soldered PCB
This product is fragile
and may be damaged
if mishandled.
VPG assumes no
responsibility for
damage caused by
improper handling.
TABLE 2 - SPECIFICATIONS
RESISTANCE RANGE
()
MAXIMUM
WORKING
VOLTAGE
AMBIENT
POWER RATING DIMENSIONS
at
+ 70 °C
at
+ 125 °C INCHES mm
10 to 100K 200 0.4 W 0.2 W
W: 0.080 max.
L: 0.250 max.
H: 0.310 max.
LL: 1.000 ± 0.125
LS(1): 0.150 ±
0.005
W: 2.03 max.
L: 6.35 max.
H: 7.87 max.
LL: 25.4 ± 3.18
LS: 3.81 ± 0.13
VAR
Vishay Foil Resistors
Document Number: 63140 For any questions, contact: foil@vishaypg.com www.vishayfoilresistors.com
Revision: 03-Jan-12 3
Note
1. An additional lead space option is available: 0.200" (5.08 mm). For these specifications - please specify VARJ (see Table 3) when placing
an order.
FIGURE 3 - POWER DERATING CURVE
200 %
175 %
150 %
125 %
100 %
75 %
50 %
25 %
0
- 75 - 50 - 25 0 + 25 + 50 + 75 + 100 + 125 + 150 + 175 + 200
Ambient Temperature (°C)
Percent of Rated Power at + 125 °C
- 55 °C + 70 °C
Double Rated Power
Rated Power
FIGURE 4 - TRIMMING TO VALUES
(Conceptual Illustration)
Mutual Inductance
Reduction due
to Opposing
Current in
Adjacent Lines
Current Path
Before Trimming
Note: Foil shown in black, etched spaces in white
Interloop Capacitance
Reduction in Series
Trimming Process
Removes this Material
from Shorting Strip Area
Changing Current Path
and Increasing
Resistance
Current Path
After Trimming
To acquire a precision resistance value, the Bulk Metal Foil
chip is trimmed by selectively removing built-in “shorting
bars.” To increase the resistance in known increments,
marked areas are cut, producing progressively smaller
increases in resistance. This method reduces the effect of
“hot spot” and improves the long term stability of the hybrid
chips.
TABLE 3 - GLOBAL PART NUMBER INFORMATION(1)
NEW GLOBAL PART NUMBER: Y070680K5000T9L (preferred part number format)
DENOTES PRECISION
RESISTOR VALUE Characteristics
Y R = 
K = k
0 = standard part, tin/lead termination
9 = standard part, lead (Pb)-free termination
1 - 999 = custom
PRODUCT CODE RESISTANCE TOLERANCE PACKAGING
0706 = VAR
0707 = VARJ
T= ± 0.01 %
Q= ± 0.02 %
A= ± 0.05 %
B= ± 0.1 %
C= ± 0.25 %
D= ± 0.5 %
F= ± 1.0 %
L = bulk pack
FOR EXAMPLE: ABOVE GLOBAL ORDER Y0706 80K5000 T 9 L:
TYPE: VAR
VALUE: 80.5 k
ABSOLUTE TOLERANCE: ± 0.01 %
TERMINATION: lead (Pb)-free
PACKAGING: bulk pack
HISTORICAL PART NUMBER: VAR T 80K5 T B (will continue to be used)
VAR T 80K5 T B
MODEL TERMINATION RESISTANCE VALUE TOLERANCE PACKAGING
VAR T = lead (Pb)-free
None = tin/lead alloy
80.5 kT= ± 0.01 %
Q= ± 0.02 %
A= ± 0.05 %
B= ± 0.1 %
C= ± 0.25 %
D= ± 0.5 %
F= ± 1.0 %
B = bulk pack
VAR
Vishay Foil Resistors
www.vishayfoilresistors.com For any questions, contact: foil@vishaypg.com Document Number: 63140
4Revision: 03-Jan-12
Note
(1) For non-standard requests, please contact application engineering.
7068 K500Y0 T90 L0
Vishay Precision Group
Document No.: 63999
Revision: 27-Apr-2011
www.vishaypg.com
1
Legal Disclaimer Notice
Disclaimer
Legal Disclaimer Notice
Disclaimer
Document No.: 63999
Revision: 27-Apr-2011
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