Y40611K00000Q0R [VISHAY]

RES SMD 1K OHM 0.02% 0.12W 0603;
Y40611K00000Q0R
型号: Y40611K00000Q0R
厂家: VISHAY    VISHAY
描述:

RES SMD 1K OHM 0.02% 0.12W 0603

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FRSH Series (Z1 Foil Technology)  
0603, 0805, 1206, 1506, 2010, 2512  
Ultra High Precision Foil Wraparound Surface Mount Chip Resistor with  
Extended Pads for High Power/High Temperature Applications  
up to +225°C  
FEATURES  
Temperature coefficient of resistance (TCR):  
±2.5 ppm/°C typical (- 55 °C to + 200 °C, + 25 °C  
ref.)  
Resistance range: 10 to 125 k(for higher   
and lower values, please contact VFR's  
application engineering department)  
Resistance tolerance: to ± 0.02 %  
Working power(1): to 1200mW at + 70 °C;   
to 330mW at + 200 °C  
Long term stability: to ± 0.05 % at + 225 °C for 2000h,  
no power  
INTRODUCTION  
Load life stability: to ± 0.05 % typical at + 200 °C for  
2000h (working power)  
Vishay Foil Resistors (VFR) introduces a new line of Ultra  
Precision Bulk Metal® Z1 Foil Technology: wraparound  
surface mount chip resistors with extended pads for high  
temperature up to + 225 °C(1) (working power: to 330mW at  
+200 °C).  
Bulk Metal 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)  
Thermal stabilization time < 1 s (nominal value achieved  
within 10 ppm of steady state value)  
Electrostatic discharge (ESD) at least to 25 kV  
Non inductive, non capacitive design  
Rise time: 1 ns effectively no ringing  
Current noise: 0.010 µV (RMS)/Volt of applied voltage   
(< - 40 dB)  
The new extended pad designs also exhibit better heat  
dissipation, thus enabling higher power usage (Working  
Power: to 1200mW at + 70°C (1)). The FRSH has a full  
wraparound termination that ensures safe handling during  
the manufacturing process, as well as providing stability  
during multiple thermal cyclings.  
Voltage coefficient: < 0.1 ppm/V  
Non inductive: < 0.08 µH  
Non hot spot design  
The FRSH is available in any value within the specified  
resistance range. VFR's application engineering department  
is available to advise and make recommendations. For  
Terminal finishes available:   
High temperature solder  
Matched sets are available on request  
Prototype quantities available, please contact  
foil@vpgsensors.com  
non-standard  
applications, please contact foil@vpgsensors.com.  
technical  
requirements  
and  
special  
TABLE 1 - TOLERANCE AND TCR VS.  
RESISTANCE VALUE (1)(2)  
FIGURE 1 - POWER DERATING CURVE  
(- 55 °C to + 200 °C, + 25 °C Ref.)  
RESISTANCE  
VALUE  
-55°C  
+70°C  
TOLERANCE  
(%)  
TCR Typical  
(ppm/°C)  
100  
75  
50  
25  
0
()  
100to 125K  
50to < 100  
25to < 50  
10 to < 25  
± 0.02  
± 0.05  
± 0.1  
±2.5  
± 0.25  
-75 -50  
-25  
0
+25 +50 +75 +100 +125 +150 +175 +200 +225 +250  
Note  
(1)  
Ambient Temperature (°C)  
Performances obtained with ceramic PCB. See Table 2 for power  
spec.  
For tighter performances and non-standard values up to 150 k,  
please contact VFR's application engineering department by  
sending an e-mail to the address in the footer below.  
(2)  
Document Number: 63211  
Revision: 27-Oct-15  
For any questions, contact  
foil@vpgsensors.com  
www.vishayfoilresistors.com  
1
FRSH Series (Z1 Foil Technology)  
0603, 0805, 1206, 1506, 2010, 2512  
HIGH TEMPERATURE PRODUCTS  
In very high-precision resistors that need to operate in an  
environment with temperatures above +175°C, these effects  
must be taken into account to achieve high stability with  
changes in load (Joule Effect) and ambient temperature.  
Resistors are the passive building blocks of an electrical  
circuit. They may be used for dropping the voltage, buffering  
the surge when the circuit is turned on, providing feedback in  
a monitoring loop, sensing current flow, etc. When the  
application requires stability over time and load, initial  
accuracy, minimal change with temperature for more than  
200°C, resistance to moisture and a number of other  
characteristics that will be described below, the Z1 Foil  
Technology products have the attributes needed for such  
application. Over the past few months, there has been  
considerable growth in the demand for precise, stable and  
reliable resistors that can operate in harsh environments  
such as 85°C/85% RH and especially at high temperatures  
to 200°C. Many analog circuits for industrial, military,  
aerospace, medical, downhole, oil well and automotive  
applications require passive components such as resistors to  
have a minimal drift from their initial values when operating  
above +175°C and in humid environments. In these  
applications, the most important factor is the temperature  
dependence and the end of life tolerance (which is part of the  
stability) and to a lesser extent, the initial tolerance.  
The Z1 Foil Technology provides an order of magnitude  
reduction in the Bulk Metal Foil element’s sensitivity to  
temperature changes—both external and internal—with  
emphasis on long-term stability in high temperature  
environments.  
In order to take full advantage of the low TCR and longterm  
stability improvement, it is necessary to take into account the  
differences in the resistor’s response to each of the  
above-mentioned effects. As described below, new products  
have been developed to successfully deal with these factors.  
For high temperature applications where stability and total  
error budget is the main concern, the new generation of  
Vishay Foil resistors offers the best resilience against time at  
elevated temperature.  
The Z1 Foil Technology allows us to produce  
customer-oriented products designed to satisfy unique and  
specific technical requirements. In addition to the special  
chip stabilization under extreme environment conditions in  
the production line, we offer additional specially oriented post  
manufacturing operations (PMO) for high temperature  
applications that require an even higher degree of reliability  
and stability.  
The Z1 Foil Technology resistors provide stabilities well  
under the maximum allowable drift required by customers’  
specifications through thousands of hours of operation under  
harsh conditions, such as the extreme temperatures and  
radiation-rich environments of downhole oil-well logging  
applications, in the frigid arctic, under the sea or in deep  
space. All Bulk Metal Foil resistors receive stabilization  
processing, such as repetitive short term power overloads, to  
assure reliable service through the unpredictable stresses of  
extreme operation. Compared to Bulk Metal Foil, thick and  
Electrostatic discharge (ESD) is another potential problem  
that can cause unpredictable failure in high temperature  
applications that increase the sensitivity of the resistors to  
ESD.  
thin film resistor elements are produced with  
a
ESD damage to electronic devices can occur at any point in  
the device’s life cycle, from manufacturing to field service. A  
resistor that is exposed to an ESD event may fail immediately  
or may experience a latent defect. With latent defects,  
premature failure can occur after the resistor is already  
functioning in the finished product after an unpredictable  
length of service. Bulk Metal Foil resistors are capable of  
withstanding electrostatic discharges at least to 25 kV without  
degradation.  
non-controllable material. Heat or mechanical stresses on  
the resistive elements cause the particles forming the film to  
expand. However, after these stresses are alleviated, the  
articles in the film matrix do not return to the exact original  
position. That degenerates their overall stability.  
VPG's ultra high precision Bulk Metal Foil technology  
includes many types of resistors with a variety of standard  
configurations  
that  
can  
withstand  
unconventional  
environmental conditions above and below the earth’s  
surface using special post manufacturing operations  
specially developed for this purpose. The stability of a  
resistor depends primarily on its history of exposures to high  
temperature. Stability is affected by:  
The VFR Application Engineering department is always  
available to assist with any special requirements you might  
have. If you are not sure which resistor best suits your needs,  
please do not hesitate to contact them for more information:  
foil@vpgsensors.com  
1. Changes in the ambient temperature and heat from  
adjacent components (defined by the temperature  
coefficient of resistance, or TCR)  
2. Destabilizing thermal shock of suddenly-applied power  
(defined by the power coefficient of resistance, or PCR)  
3. Long-term exposure to applied power (load-life stability)  
4. Repetitive stresses from being switched on and off  
www.vishayfoilresistors.com  
2
For any questions, contact  
foil@vpgsensors.com  
Document Number: 63211  
Revision: 27-Oct-15  
FRSH Series (Z1 Foil Technology)  
0603, 0805, 1206, 1506, 2010, 2512  
FIGURE 2 - TRIMMING TO VALUES  
TABLE 2 - SPECIFICATIONS(1)  
(Conceptual Illustration)  
RATED  
WORKING  
RESISTANCE  
RANGE  
()  
CHIP  
SIZE  
POWER(mW) POWER (mW)  
at + 70°C  
at + 200 °C*  
Interloop  
0603  
0805  
1206  
1506  
2010  
2512  
120  
33  
83  
100 to 4K  
10to 8K  
10to 25K  
10to 30K  
10 to 70K  
10to 125K  
capacitance  
Current path  
reduction  
in series  
300  
before trimming  
500  
140  
167  
220  
330  
Mutual  
600  
Current path after trimming  
inductance  
reduction  
due to change  
in current  
direction  
800  
Trimming process  
removes this material  
from shorting strip area  
changing current path  
and increasing  
1200  
Note  
*
Maximum working voltage for a given resistance value is calculated  
using V = P R .  
resistance  
Foil shown in black, etched spaces in white  
Note  
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 spots” and  
improves the long-term stability of VFR resistors.  
TABLE 3 - DIMENSIONS AND LAND PATTERN in Inches (Millimeters)  
Top View  
Recommended Land Pattern*  
L
Footprint  
X
G
W
T
Z
D
Extended Pads  
CHIP  
SIZE  
L
W
THICKNESS  
MAXIMUM  
D
Z
G
X
± 0.005 (0.13)  
± 0.005 (0.13)  
0.032(0.81)  
0.050 (1.27)  
0.062 (1.57)  
0.062 (1.57)  
0.097 (2.46)  
0.127 (3.23)  
± 0.005 (0.13)  
0603  
0805  
1206  
1506  
2010  
2512  
0.063 (1.60)  
0.080 (2.03)  
0.126 (3.20)  
0.150 (3.81)  
0.198 (5.03)  
0.249 (6.32)  
0.025 (0.64)  
0.025 (0.64)  
0.025 (0.64)  
0.025 (0.64)  
0.025 (0.64)  
0.025 (0.64)  
0.011 (0.28)  
0.015 (0.38)  
0.035 (0.89)  
0.047 (1.20)  
0.071 (1.82)  
0.095 (2.43)  
0.102 (2.59)  
0.122 (3.10)  
0.175 (4.45)  
0.199 (5.05)  
0.247 (6.27)  
0.291 (7.39)  
0.031 (0.78)  
0.028 (0.71)  
0.029 (0.74)  
0.029 (0.74)  
0.029 (0.74)  
0.029 (0.74)  
0.031 (0.78)  
0.050 (1.27)  
0.071 (1.80)  
0.071 (1.80)  
0.103 (2.62)  
0.127 (3.23)  
*
For 0603 and 0805 land pattern dimensions are per IPC-782  
TABLE 4 - FRSH PERFORMANCE LIMITS (MIL-PRF-55342)  
MAX LIMIT %  
(PPM)(1)(2)  
TYPICAL LIMIT %  
TEST  
CONDITIONS  
(PPM)  
Short-Time Overload  
6.25 x Pnom.  
+225°C, 2,000 h  
±0.005% (50)  
±0.05% (500)  
±0.005% (50)  
±0.01% (100)  
±1% (10,000)  
±0.01% (100)  
High Temperature Exposure  
Low Temperature Operation  
–65°C, 45 min at rated power  
Moisture Resistance  
Per MIL-PRF-55342 (p. 4.8.9)  
Derated power (see table 2)  
@ rated power (see table 2)  
100 x (–65°C to + 200°C)  
±0.01% (100)  
±0.05% (500)  
±0.005% (50)  
±0.02% (200)  
±0.01% (100)  
±0.4% (4000)  
±0.01% (100)  
±0.3% (3000)  
Stability under load, 200°C, 2,000 h  
Load-Life Test, 70°C, 2,000 h  
Thermal Shock  
Notes  
(1)  
(2)  
Performances obtained with ceramic PCB.  
As shown + 0.01 to allow for measurement errors at low values.  
Document Number: 63211  
Revision: 27-Oct-15  
For any questions, contact  
foil@vpgsensors.com  
www.vishayfoilresistors.com  
3
FRSH Series (Z1 Foil Technology)  
0603, 0805, 1206, 1506, 2010, 2512  
FIGURE 3 - RECOMMENDED MOUNTING  
Notes  
(1) IR and vapor phase reflow are recommended.  
(2)  
Avoid the use of cleaning agents which could attack epoxy resins, which form part  
of the resistor construction  
Vacuum pick up is recommended for handling  
(3)  
(4) In case of using soldering iron, measurement precautions should be taken to avoid  
damaging the resistor  
TABLE 5 - GLOBAL PART NUMBER INFORMATION (1)  
NEW GLOBAL PART NUMBER: Y406412K7560Q0R (preferred part number format)  
DENOTES PRECISION  
VALUE  
CHARACTERISTICS  
Y
R =   
K = k  
0 = standard (High Temperature solder)  
1 to 999 = custom  
Y
4
0
6
4
1
2
K
7
5
6
0
Q
0
R
PRODUCT CODE  
RESISTANCE TOLERANCE  
PACKAGING  
4061 = FRSH 0603  
4062 = FRSH 0805  
4063 = FRSH 1206  
4064 = FRSH 1506  
4065 = FRSH 2010  
4066 = FRSH 2512  
Q = ± 0.02 %  
A = ± 0.05 %  
B = ± 0.10 %  
C = ± 0.25 %  
D = ± 0.5 %  
F = ± 1.0 %  
R = tape and reel  
W = waffle pack  
FOR EXAMPLE: ABOVE GLOBAL ORDER Y4064 12K7560 Q 0 R:  
TYPE: FRSH1506  
VALUES: 12.7560 k  
ABSOLUTE TOLERANCE: 0.02 %  
TERMINATION: Standard  
PACKAGING: tape and reel  
HISTORICAL PART NUMBER: FRSH1506 12K756 TCR2.5 Q B T (will continue to be used)  
FRSH1506  
12K756  
TCR2.5  
Q
B
T
RESISTANCE  
VALUE  
TCR  
MODEL  
TOLERANCE  
TERMINATION  
PACKAGING  
CHARACTERISTICS  
T = tape and reel  
W = waffle pack  
FRSH 0603  
FRSH 0805  
FRSH 1206  
FRSH 1506  
FRSH 2010  
FRSH 2512  
12.756 k  
Q = ± 0.02 %  
A = ± 0.05 %  
B = ± 0.10 %  
C = ± 0.25 %  
D = ± 0.5 %  
F = ± 1.0 %  
B = Standard  
Note  
(1) For non-standard requests, please contact application engineering.  
www.vishayfoilresistors.com  
4
For any questions, contact  
foil@vpgsensors.com  
Document Number: 63211  
Revision: 27-Oct-15  
Legal Disclaimer Notice  
Vishay Precision Group, Inc.  
Disclaimer  
ALL PRODUCTS, PRODUCT SPECIFICATIONS AND DATA ARE SUBJECT TO CHANGE WITHOUT NOTICE.  
Vishay Precision Group, Inc., its affiliates, agents, and employees, and all persons acting on its or their behalf  
(collectively, “VPG”), disclaim any and all liability for any errors, inaccuracies or incompleteness contained herein or in  
any other disclosure relating to any product.  
The product specifications do not expand or otherwise modify VPG’s terms and conditions of purchase, including but  
not limited to, the warranty expressed therein.  
VPG makes no warranty, representation or guarantee other than as set forth in the terms and conditions of purchase.  
To the maximum extent permitted by applicable law, VPG 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.  
Information provided in datasheets and/or specifications may vary from actual results in different applications and  
performance may vary over time. Statements regarding the suitability of products for certain types of applications  
are based on VPG’s knowledge of typical requirements that are often placed on VPG products. 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. You should ensure you have the current version of the relevant information by contacting  
VPG prior to performing installation or use of the product, such as on our website at vpgsensors.com.  
No license, express, implied, or otherwise, to any intellectual property rights is granted by this document, or by any  
conduct of VPG.  
The products shown herein are not designed for use in life-saving or life-sustaining applications unless otherwise  
expressly indicated. Customers using or selling VPG products not expressly indicated for use in such applications do  
so entirely at their own risk and agree to fully indemnify VPG for any damages arising or resulting from such use or sale.  
Please contact authorized VPG personnel to obtain written terms and conditions regarding products designed for such  
applications.  
Product names and markings noted herein may be trademarks of their respective owners.  
Copyright Vishay Precision Group, Inc., 2014. All rights reserved.  
Document No.: 63999  
Revision: 15-Jul-2014  
www.vpgsensors.com  
1

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