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Y07815K17000A0W

更新时间：2025-05-16 16:03:14

品牌：VISHAY

描述：RES,SMT,METAL FOIL,5.17K OHMS,.05% +/-TOL,-2.5,2.5PPM TC,1505 CASE

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Y07815K17000A0W 概述

RES,SMT,METAL FOIL,5.17K OHMS,.05% +/-TOL,-2.5,2.5PPM TC,1505 CASE 金属箔电阻器

Y07815K17000A0W 规格参数

是否Rohs认证：	符合	生命周期：	Contact Manufacturer
包装说明：	SMT, 1505	Reach Compliance Code：	unknown
风险等级：	5.6	构造：	Chip
端子数量：	2	最高工作温度：	240 °C
最低工作温度：	-55 °C	封装高度：	0.508 mm
封装长度：	3.81 mm	封装形式：	SMT
封装宽度：	1.27 mm	包装方法：	Waffle Pack
额定功率耗散 (P)：	0.05 W	电阻：	5170 Ω
电阻器类型：	FIXED RESISTOR	系列：	HTHG
尺寸代码：	1505	子类别：	FIXED RESISTOR
技术：	METAL FOIL	温度系数：	-2.5,2.5 ppm/°C
容差：	0.05%	Base Number Matches：	1

Y07815K17000A0W 数据手册

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HTHG* (Z1-Foil)

Vishay Foil Resistors

Ultra High Precision Z1-Foil Technology Gold Wire Bondable Chip

Resistor for Hybrid Circuits for High Temperature Applications

up to +240°C, Long Term Stability of 0.05%,TCR to ± 1ppm/°C

FEATURES

 Temperature coefficient of resistance (TCR):

±1 ppm/°C typical (- 55 °C to + 125 °C, + 25 °C ref.)

±2.5 ppm/°C typical (- 55 °C to + 220 °C, + 25 °C

ref.)

 Resistance range: 5 to 125 k(for higher 

or lower values, please contact VFR's application

engineering department)

 Resistance tolerance: to ± 0.02 %

 Connection method: gold wire bonding

 Working power: to 150mW at + 220°C

 Long term stability: to ± 0.05 % at + 240°C for 2000h, no

INTRODUCTION

power

 Load life stability: to 0.05% at + 220°C for 2000h at

working power

 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)

Vishay Foil Resistors (VFR) introduces a new line of Ultra

Precision Bulk Metal^®Z1-Foil technology: hybrid chip

resistors, connected using gold wire bonding. The HTHG

series features two different layouts of chip designs

according to the sizes (see figure 3 and table 4). These new

types of hybrid chips were especially designed for high

temperature applications up to + 240°C ⁽¹⁾(working power: to

150mW at + 220°C), and include gold plated terminals.

 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)

 Voltage coefficient: < 0.1 ppm/V

 Non inductive: < 0.08 µH

The HTHG series is available in any value within the

specified resistance range. VFR's application engineering

department is available to advise and make

recommendations.

 Non hot spot design

For non-standard technical requirements and special

applications, please contact foil@vishaypg.com.

 Terminal finish available: gold plated (lead (Pb)-free alloy)

 Prototype quantities available in just 5 working days

or sooner. For more information, please contact

foil@vishaypg.com

TABLE 1 - TOLERANCE AND TCR VS.

RESISTANCE VALUE ^(1)(2)

FIGURE 1 - POWER DERATING CURVE

(- 55 °C to + 220 °C, + 25 °C Ref.)

-55°C

+70°C

100

RESISTANCE

TOLERANCE

(%)

TCR Typical

(ppm/°C)

VALUE

()

100to 125K

50to < 100

25to < 50

10to < 25

5to 10

± 0.02

± 0.05

± 0.1

± 2.5

+240

± 0.25

± 0.5

-75 -50

-25

+25 +50 +75 +100 +125 +150 +175 +200 +225 +250

Ambient Temperature (°C)

Notes

(1)

(2)

Performances obtained with ceramic PCB

For tighter performances or 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.

* HTHG was previously named HTH

Document Number: 63221

Revision: 13-Dec-12

For any questions, contact: foil@vishaypg.com

www.vishayfoilresistors.com

HTHG (Z1-Foil)

Vishay Foil Resistors

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, only the new

generation of Vishay Foil Resistors have the attributes

needed for this 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 and especially at high temperatures to 220 °C.

Many analog circuits for industrial, military, aerospace,

medical, down-hole, 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 end of life tolerance (which is part

of the stability) and to a lesser extent, the initial tolerance.

The Bulk Metal^®Foil Resistors’ new 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 long term

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 new Vishay 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 new Vishay Foil 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 down-hole 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

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

particles in the film matrix do not return to the exact original

position. That degenerates their overall stability.

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 volts

without degradation.

Vishay Foil Resistors’ 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:

VFR’s 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@vishaypg.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

For any questions, contact: foil@vishaypg.com

Document Number: 63221

Revision: 13-Dec-12

HTHG (Z1-Foil)

Vishay Foil Resistors

TABLE 2 - PRODUCT SPECIFICATIONS

TABLE 3 - SPECIFICATIONS

PRODUCT

CONNECTING METHOD

SIZES

WORKING

POWER (mW)

at + 220 °C⁽¹⁾

CHIP

SIZE

RESISTANCE RANGE

()

5x5,15x5,15x10

HTHG

Gold wire bonding

0603,0805,1206,

1506,2010,2512

5x5

15x5

15x10

0603

0805

1206

1506

2010

2512

5 to 10K

5 to 30K

30K to 80K

100 to 5K

5to 8K

5to 25K

5to 30K

5 to 70K

5to 125K

12.5

100

150

Note

(1)

Maximum working voltage at +220°C for a given resistance value is

calculated using V = P  R .

FIGURE 2 - TRIMMING TO VALUES (Conceptual Illustration)

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 the Vishay Foil chips.

Current Path

Interloop Capacitance

Reduction in Series

Before Trimming

Current Path

After Trimming

Trimming Process

Mutual Inductance

Reduction due

to Change in

Removes this Material

from Shorting Strip Area

Changing Current Path

and Increasing

Current Direction

Resistance

Note: Foil shown in black, etched spaces in white

FIGURE 3 - DIMENSIONS in inches (millimeters)

0.020 0.005

(0.508 0.127)

0.150 0.005

(3.81 0.127)

0.150 0.005

(3.81 0.127)

15X5

+ 0.001

0.019

- 0.004

+ 0.025

(0.483

)

- 0.102

15X10

0.005 0.004

(0.127 0.102)

+ 0.001

0.019

+ 0.001

- 0.004

0.029

0.737

0.050 0.005

(1.27 0.127)

+ 0.025

(

0.483

)

- 0.102

+ 0.025

(

)

- 0.102

Square

0.008

0.005 0.004

(0.127 0.102)

(0.203)

Nominal

5X5

+ 0.001

- 0.004

0.029

0.737

+ 0.025

(

)

- 0.102

0.008

(0.203)

Nominal

0.034

(0.864)

Nominal

0.008

0.020 0.005

(0.203)

Nominal

(0.508 0.127)

Document Number: 63221

Revision: 13-Dec-12

For any questions, contact: foil@vishaypg.com

www.vishayfoilresistors.com

HTHG (Z1-Foil)

Vishay Foil Resistors

TABLE 4 - DIMENSIONS in inches (millimeters)*

Gold Plated Terminals

W1 [W - 0.003"]

L - 0.005 (0.13)

CHIP

SIZE

THICKNESS

± 0.003 (0.08)

± 0.005 (0.13)

0.063 (1.60)

0.079 (2.01)

0.126 (3.20)

0.150 (3.81)

0.200 (5.08)

0.250 (6.35)

± 0.005 (0.13)

NOMINAL

0603

0805

1206

1506

2010

2512

0.032 (0.81)

0.049 (1.24)

0.062 (1.57)

0.100 (2.54)

0.126 (3.20)

0.02 (0.50)

0.006 (0.15)

0.010 (0.25)

0.015 (0.38)

0.012 (0.30)

0.020 (0.51)

0.024 (0.61)

* Notes

Vacuum pick up is recommended for handling

•

TABLE 5 - COMPARATIVE PERFORMANCES⁽¹⁾- THIN FILM VS. BULK METAL^®Z1-FOIL

TECHNOLOGY

R LIMITS OF BULK METAL^®Z1-FOIL

R LIMITS OF THIN FILM

TECHNOLOGY - HTHG SERIES⁽²⁾

(TYPICAL)

TEST OR CONDITIONS

(TYPICAL)

Thermal Shock, 5 x (- 65 °C to + 220 °C)

± 0.1 %

± 0.03% (300 ppm)

± 0.0025% (25 ppm)

± 0.003% (30 ppm)

Low Temperature Operation, - 65 °C, 45 min at Rated

Power

Moisture Resistance

Load Life Stability, + 220 °C for 2000 h at Working

Power (see table 3)

Long term stability, +240 °C for 2000h, No Power

± 0.5 %

± 0.05% (500 ppm)

Note

(1)

As shown + 0.01  to allow for measurement errors at low values.

^{(2 )}Performances obtained with ceramic PCB.

www.vishayfoilresistors.com

For any questions, contact: foil@vishaypg.com

Document Number: 63221

Revision: 13-Dec-12

HTHG (Z1-Foil)

Vishay Foil Resistors

Catastrophic Damage - occurs when the ESD event causes the

device to immediately stop functioning. This may occur after one or

a number of ESD events with diverse causes, such as human body

discharge or the mere presence of an electrostatic field.

PULSE TEST

TEST DESCRIPTION

All parts are baked at +125°C for 1 hour and allowed to cool at room

temperature for 1 hour, prior to testing. By using an electrolytic

0.01µF capacitor charged to 1200 VDC, a single pulse was

performed on 30 units of 1206, 10 k of Surface Mount Vishay Foil

resistor and Thin Film resistor. The unit was allowed time to cool

down, after which the resistance measurement was taken and

displayed in ppm deviation from the initial reading.

Latent Damage - occurs when the ESD event causes moderate

damage to the device, which is not noticeable, as the device appears

to be functioning correctly. However, the load life of the device has

been dramatically reduced, and further degradation caused by

operating stresses may cause the device to fail during service.

Latent damage is the source for greatest concern, since it is very

difficult to detect by re-measurement or by visual inspection,

because damage may have occurred under the external coating.

TEST RESULTS

FIGURE 4 - PULSE TEST DESCRIPTION

TEST DESCRIPTION

By using an electrolytic 500 pF capacitor charged up to 4500 V,

pulses were performed on 10 units of 1206, 10 k of three different

Surface Mount Chip Resistors technologies, with an initial voltage

spike of 2500 V (Figure 6). The unit was allowed time to cool down,

after which the resistance measurement was taken and displayed in

ppm deviation from the initial reading. Readings were then taken in

500 V increments up to 4500 V.

ꢀ2!!

#$ꢁ

!ꢂ!ꢀ+-

TEST RESULTS

FIGURE 6 - ESD TEST DESCRIPTION

2500 V to 4500 V

1 MΩ

FIGURE 5 - PULSE TEST RESULTS AT

1200 VDC*

140000

120000

100000

500 pF

Thin Film

80000

60000

40000

20000

Bulk Metal^®Foil

Size: 1206

Value: 10K

n = 30

-20000

Resistor #

DMM

Note: Average of 30 units yielded deviation of 30 723 ppm of the Thin Film vs –14 ppm for the Bulk Metal^®Foil

* Note: Average of 30 units yielded deviation of 30,723 ppm for the

Thin Film vs. -14 ppm for the Bulk Metal^®Foil

TABLE 6 - ESD TEST RESULTS

∆R (%)

VOLTS

THICK FILM

-2.7

THIN FILM

FOIL

ELECTROSTATIC DISCHARGE (ESD)

2500

3000

3500

4000

4500

<0.005

ESD can be categorized into three types of damages:

-4.2

366

Parametric Failure - occurs when the ESD event alters one or more

device parameters (resistance in the case of resistors), causing it to

shift from its required tolerance. This failure does not directly pertain

to functionality; thus a parametric failure may be present while the

device is still functional.

-6.2

>5000

OPEN

-7.4

-8.6

Document Number: 63221

Revision: 13-Dec-12

For any questions, contact: foil@vishaypg.com

www.vishayfoilresistors.com

HTHG (Z1-Foil)

Vishay Foil Resistors

TABLE 7 - GLOBAL PART NUMBER INFORMATION ⁽¹⁾

NEW GLOBAL PART NUMBER: Y079712K7560Q0W (preferred part number format)

DENOTES PRECISION

VALUE

CHARACTERISTICS

R = 

K = k

0 = standard (gold plated)

1 to 999 = custom

PRODUCT CODE

RESISTANCE TOLERANCE

PACKAGING

0780 = HTHG5x5

0781 = HTHG15x5

0782 = HTHG15X10

0794 = HTHG0603

0795 = HTHG0805

0796 = HTHG1206

0797 = HTHG1506

0798 = HTHG2010 

0799 = HTHG2512

Q = ± 0.02 %

A = ± 0.05 %

B = ± 0.10 %

C = ± 0.25 %

D = ± 0.5 %

F = ± 1.0 %

W = waffle pack

FOR EXAMPLE: ABOVE GLOBAL ORDER Y0797 12K7560 Q 0 W:

TYPE: HTHG1506

VALUES: 12.7560 k

ABSOLUTE TOLERANCE: 0.02 %

TERMINATION: standard (gold-plated)

PACKAGING: waffle pack

HISTORICAL PART NUMBER: HTHG1506 12K756 Q W (WILL CONTINUE TO BE

HTHG1506

12K756

RESISTANCE

VALUE

MODEL

TOLERANCE

PACKAGING

0780 = HTHG5x5h

0781 = HTHG15x5

0782 = HTHG15X10

0794 = HTHG0603

0795 = HTHG0805

0796 = HTHG1206

0797 = HTHG1506

0798 = HTHG2010

0799 = HTHG2512

12.756 k

Q = ± 0.02 %

A = ± 0.05 %

B = ± 0.10 %

C = ± 0.25 %

D = ± 0.5 %

F = ± 1.0 %

W= waffle pack

Note

⁽¹⁾For non-standard requests, please contact application engineering.

www.vishayfoilresistors.com

For any questions, contact: foil@vishaypg.com

Document Number: 63221

Revision: 13-Dec-12

Legal Disclaimer Notice

Vishay Precision Group

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, “Vishay Precision Group”), 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 Vishay Precision Group’s terms and

conditions of purchase, including but not limited to, the warranty expressed therein.

Vishay Precision Group 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, Vishay Precision

Group 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 Vishay Precision Group’s knowledge of typical requirements that

are often placed on Vishay Precision Group 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.

No license, express, implied, or otherwise, to any intellectual property rights is granted by this document, or

by any conduct of Vishay Precision Group.

The products shown herein are not designed for use in life-saving or life-sustaining applications unless

otherwise expressly indicated. Customers using or selling Vishay Precision Group products not expressly

indicated for use in such applications do so entirely at their own risk and agree to fully indemnify Vishay

Precision Group for any damages arising or resulting from such use or sale. Please contact authorized

Vishay Precision Group 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.

Document No.: 63999

Revision: 27-Apr-2011

www.vishaypg.com

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