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Y11891K29000VM0L: 产品描述RESISTOR, METAL FOIL, 0.3 W, 0.005 %, 2 ppm, 1290 ohm, THROUGH HOLE MOUNT, RADIAL LEADED; 产品类别无源元件电阻器; 文件大小497KB，共6页; 制造商Vishay(威世); 官网地址http://www.vishay.com

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Y11891K29000VM0L概述

RESISTOR, METAL FOIL, 0.3 W, 0.005 %, 2 ppm, 1290 ohm, THROUGH HOLE MOUNT, RADIAL LEADED

Y11891K29000VM0L规格参数

参数名称	属性值
是否无铅	含铅
是否Rohs认证	不符合
Objectid	1575867062
包装说明	Radial, 3011
Reach Compliance Code	compliant
Country Of Origin	Israel
ECCN代码	EAR99
YTEOL	10
其他特性	PRECISION, NON INDUCTIVE
构造	Rectangular
JESD-609代码	e0
引线直径	0.635 mm
引线长度	25.4 mm
引线间距	3.81 mm
安装特点	THROUGH HOLE MOUNT
端子数量	2
最高工作温度	175 °C
最低工作温度	-55 °C
封装高度	8.28 mm
封装长度	7.62 mm
封装形式	Radial
封装宽度	2.67 mm
包装方法	BULK
额定功率耗散 (P)	0.3 W
额定温度	125 °C
参考标准	MIL-PRF-55182/9
电阻	1290 Ω
电阻器类型	FIXED RESISTOR
表面贴装	NO
技术	METAL FOIL
温度系数	2 ppm/°C
端子面层	Tin/Lead (Sn/Pb)
端子形状	WIRE
容差	0.005%
工作电压	300 V

Y11891K29000VM0L文档预览

Military Established Reliability

Bulk Metal

and Technology

BulkMetal®FoilTechnologyRNC90YFoilRNC90Z(Z-Foil)toMIL-PRF-55182/9

RNC90Y and RNC90Z (Z-Foil) to MIL-PRF-55182/9

FEATURES

• QPL product with established reliability (ER)

• “R” level high reliability resistor qualified to

MIL-PRF-55182/9

• Load life stability: ±0.05% ΔR for 2000 h,

0.3 W at +125°C

• Temperature coefficient of resistance (TCR):

±2 ppm/°C max. (–55°C to +175°C)

• Resistance tolerance: to ±0.005%

• Thermal EMF: <0.1 µV/°C

• Qualified resistance range:

4.99 Ω to 121 kΩ (RNC90Y)

30.1 Ω to 121 kΩ (RNC90Z)

• Specially conditioned non-QPL resistors available

See data sheet “Improved Performance Tested”

• Fast thermal stabilization

• Electrostatic discharge (ESD) above 25 000 V

• Non inductive, non capacitive design

• Current noise <–42 dB

• Prototype sample available

INTRODUCTION

Military Established Reliability resistors from Vishay Foil

Resistors (VFR) are available in resistance values from

4.99 Ω through 121 kΩ and with tolerances from ±0.005%

to ±1.0%. The same resistors are also available as non-

qualified products for customers desiring higher or lower

resistance values and the same or better performance

capabilities (see Table 2). Both qualified and non-qualified

versions are manufactured on the same production

line facilities and are subjected to the same process,

lot control, conditioning, and GRP A (100%) screening.

Qualified versions receive additional MIL Group B and

C testing.

The RNC90Y has been the benchmark for high-

precision, established-reliability discrete resistors since

1982. In 2000, our engineers achieved a technological

breakthrough with the introduction of the commercial

ultra-precision, low-TCR Z201 resistor. This breakthrough

allowed for the introduction of a resistor with very low

TCR and an “R” reliability level. The RNC90Z TCR limit of

±2 ppm/°C over the extended range of –55°C to +175°C

is a significant improvement over the existing

RNC90Y specification.

The RNC90Z is a direct replacement for the RNC90Y.

Figure 1 – Comparison of RNC90Y to RNC90Z Temperature Coefficient of Resistance

+1000

RNC90Y

+1000

RNC90Z

+1000

+400

+500

R/R (ppm)

– 400

+160

+300

+200

– 200

– 300

– 160

– 500

– 1000

– 55

Specification ± 5 ppm/°C ±10 ppm/°C

4089-EN

Rev 27-Jan-2021

For any questions, contact

foil@vpgsensors.com

Temperature (°C)

125

– 1000

175

– 1000

– 55

Specification ± 2 ppm/°C

www.vishayfoilresistors.com

Temperature (°C)

125

– 1000

175

Military Established Reliability

Table 1 – Specifications Comparison

(1)

SPECIFICATION

RNC90Y

(QUALIFIED)

MIL-PRF-55182/9

CHARACTERISTIC

Y LIMITS

±5 ppm/°C

(–55°C to +125°C)

±10 ppm/°C

(+125°C to +175°C)

4.99 Ω to 121 kΩ

Level R

RNC90Z

(QUALIFIED)

MIL-PRF-55182/9

CHARACTERISTIC

Z LIMITS

±2 ppm/°C

(–55°C to +175°C)

30.1 Ω to 121 kΩ

Level R

S555

(NON-QUALIFIED)

VFR PERFORMANCE

LIMITS

±5 ppm/°C

(–55°C to +125°C)

1 Ω to 150 kΩ

Not specified

Z555 (NON-QUALIFIED)

VFR PERFORMANCE

LIMITS

±3 ppm/°C ±2.5 ppm/°C ±2 ppm/°C

(–55°C to +125°C)

4.99 Ω

to 25 Ω

>25 Ω

to 80 Ω

Not specified

>80 Ω

Temperature

Coefficient of

Resistance

Range

Failure Rate

Load-Life Stability

0.3 W at +125°C

at 2000 h

±0.05% maximum ΔR ±0.05% maximum ΔR ±0.015% maximum ΔR

(2)

at 10 000 h

±0.5% maximum ΔR ±0.5% maximum ΔR ±0.05% maximum ΔR

(2)

Current Noise

High-Frequency

Operation

Rise Time

Inductance

(3)

(L)

Capacitance (C)

Voltage

Coefficient

Working Voltage

(4)

Thermal EMF

(5)

Not specified

–40 dB minimum

±0.015% maximum ΔR

(2)

±0.05% maximum ΔR

(2)

–40 dB minimum

Not specified

0.0005%/V

300 V maximum

Not specified

0.0005%/V

300 V maximum

Not specified

1.0 ns at 1 kΩ

0.1 µH maximum

0.08 µH typical

1.0 pF maximum

0.5 pF typical

0.0001%/V

300 V maximum

0.1 µV/°C maximum

1 µV/W maximum

1.0 ns at 1 kΩ

0.1 µH maximum

0.08 µH typical

1.0 pF maximum

0.5 pF typical

0.0001%/V

300 V maximum

0.1 µV/°C maximum

1 µV/W maximum

Notes

(1)

Qualification and failure rate verification test data is maintained by Vishay Foil Resistors and is available upon request.

Lot traceability and identification data is maintained by VFR for 7 years.

(2)

Load life ΔR Maximum can be reduced by 80% through a screening procedure. Consult our Applications Engineering for details.

(3)

Inductance (L) due mainly to the leads.

(4)

Not to exceed power rating of resistor.

(5)

µV/°C relates to EMF due to lead temperature differences and µV/W due to power applied to the resistor.

Figure 2 – Trimming to Values

Interloop

capacitance

reduction

in series

Mutual

inductance

reduction

due to change

in current

direction

Current path

before trimming

Current path after trimming

Figure 2 – Power Derating Curve

Percent of Rated Power

+100

+75

+50

+25

– 50

– 25

+25 +50

+75 +100 +125 +150 +175

– 55°C

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 Bulk Metal

Foil resistors.

Trimming process

removes this material

from shorting strip area

changing current path

and increasing

resistance

Foil shown in black, etched spaces in white

Ambient Temperature (°C)

www.vishayfoilresistors.com

For any questions, contact

foil@vpgsensors.com

4089-EN

Rev 27-Jan-2021

Military Established Reliability

Figure 4 – Imprinting and Dimensions

RNC90Y and RNC90Z Military Approved Resistors

Front View

VFR

0066A

XXXXX J

Side View

Manufacturers

Identiﬁcation

Number

JAN Designator

(not present if

non-qualiﬁed)

Resistance

Tolerance

Code

Lead Material

#22 AWG

(0.025 dia.)

Solder Coated

Copper

Rear View

Model Number

XXXXX

100R01

Mfr. Code

Factory Year Week

Resistance

Value Code

Failure Rate Code

(not present if

non-qualiﬁed)

(1)

Note

(1)

0.200 in (5.08 mm) lead spacing available – specify Model Number RNC90T for RNC90Y, and RNC90S for RNC90Z

Table 2 – Model Selection

MODEL

NUMBER

RESISTANCE

RANGE (Ω)

STANDARD

RESISTANCE

TOLERANCE

TIGHTEST LOOSEST

±0.005

±0.05

±0.1

±0.005

±0.01

±0.05

±0.1

±0.5

±0.005

±0.01

±0.05

±1.0

FAILURE

RATE

AMBIENT

POWER RATING

+70°C

0.6 W

+125°C

0.3 W

AVERAGE

WEIGHT

(g)

DIMENSIONS

INCHES

RNC90Y

RNC90Z

30.1 to 121K

16.2 to 30.0

4.99 to 16.0

30.1 to 121K

20 to <30.1

5 to <20

2 to <5

1 to <2

>121K to 150K

M, P, R

(See

Table 3)

0.6

W: 0.105±0.010

L: 0.300±0.010

H: 0.326±0.010

ST: 0.010±0.005

LL: 1.000±0.125

LS: 0.150±0.010

2.67±0.25

7.62±0.25

8.28±0.25

0.254±0.13

25.4±3.18

3.81±0.25

S555

(NON QPL)

–

0.6 W

0.3 W

0.6

–

0.4 W

0.6 W

0.2 W

0.3 W

0.6

Z555

(NON QPL)

30.1 to 121K

20 to <30.1

4.99 to <20R

Note

S555 and Z555 units are manufactured on the same production line facilities and are subjected to all the same process and lot control

requirements imposed on RNC90Y (Z) version, as well as all of the special screening, environmental conditioning and documentation

stipulations outlined in MIL-PRF 55182/9

4089-EN

Rev 27-Jan-2021

For any questions, contact

foil@vpgsensors.com

www.vishayfoilresistors.com

Military Established Reliability

Table 3 – Global Part Number Information

NEW GLOBAL PART NUMBER: Y1189100R500AR0L (preferred part number format)

DENOTES PRECISION

VALUE

= k

LIFE FAILURE RATE (LFR)

(1)

= ± 0.01%

= ±0.1%

= ±1.0%

= standard

1 - 999

= custom

AER

(2)

PACKAGING

PRODUCT CODE

1189

= RNC90Z

0089

= RNC90Y

1508

= RNC90T

1506

= RNC90S

0088

= S555

1288

= Z555

RESISTANCE TOLERANCE

= ±0.005%

= ±0.01%

= ±0.05%

= ±0.1%

= ±0.5%

= ±1.0%

= bulk pack

= tape and reel

FOR EXAMPLE: ABOVE GLOBAL ORDER Y1189 100R500 A R 0 L:

TYPE: RNC90Z

VALUE: 100.5

ABSOLUTE TOLERANCE: ±0.05%

LIFE FAILURE RATE (LFR): ±0.01%

AER: standard

PACKAGING: bulk pack

HISTORICAL PART NUMBER: RNC90Z 100R50 A R B (will continue to be used)

RNC90Z

MODEL

RNC90Z

RNC90S

RNC90Y

RNC90T

S555

Z555

100R50

OHMIC VALUE

100.5

RESISTANCE

TOLERANCE

= ±0.005%

= ± 0.01%

= ±0.05%

= ±0.1%

= ±0.5%

= ± 1.0%

LIFE FAILURE

RATE (LFR)

(1)

= ± 0.01%

= ± 0.1%

= ±1.0%

PACKAGING

= bulk pack

Note

(1)

Applicable only for QPL part. For S555 and Z555 please omit the Life Failure Rate designator from the part number.

(2)

For non-standard requests, please contact application engineering.

www.vishayfoilresistors.com

For any questions, contact

foil@vpgsensors.com

4089-EN

Rev 27-Jan-2021

Military Established Reliability

CAGE #0066A

“Commercial and Government Entity”

Formerly “FSCM”

The response of military and non military grade resistors to environmental stresses can be made better by “Improved

Performance Testing” (IPT). The IPT part will see burn-in and cycling that removes the “knee” from the normal drift of non

IPT parts. (See Table 4 for the improvement to expect in military parts when calling for VFR recommended screening).

Users should be aware that IPT testing renders the part non QPL and so a 3XXXXX part number will be assigned by VFR.

Consult Applications Engineering for details and ordering advice.

Table 4 – Improved Performance Testing (Non-QPL) vs. QPL

TEST

GROUP

TEST

Burn-in

Thermal Shock and

Overload Combined

Resistance Temperature

Characteristic

Low Temperature Storage

Low Temperature Operation

Terminal Strength

DWV

Insulation Resistance

Resistance to Soldering Heat

Moisture Resistance

Shock

Vibration

Load Life at +125°C; 2000 h

Load Life at +125°C; 10 000 h

+85°C Power Rating

+70°C Power Rating

+25°C Power Rating

Storage Life

High Temperature Exposure

Max. Allowance Reactance

Current Noise

Voltage Coefficient

Thermal EMF

RNC90Y

MIL-PRF-55182 & MIL-PRF-55182/9

METHOD PARAGRAPH

4.8.3.3

4.8.2

4.8.3

4.8.9

4.8.23

4.8.10

4.8.11

4.8.12

4.8.13

4.8.14

4.8.15

4.8.16

4.8.17

4.8.18

–

4.8.18

–

4.8.19

–

4.8.20

–

LIMITS

±0.05%

–

±0.05%

±5 ppm/°C

±0.05%

±0.02%

MΩ

±0.02%

±0.05%

±0.01%

±0.02%

±0.05%

±0.5%

–

±0.05%

–

±0.5%

–

0.0005%/V (5 ppm/V)

–

VISHAY FOIL RESISTORS

IMPROVED PERFORMANCE

TESTING

(IPT) LIMITS

±0.0025%

–

±0.005%

<±2 ppm/°C

(–55°C to +125°C)

(Can be sorted for tighter tracking)

±0.0025%

±0.001%

>10

MΩ

±0.001%

±0.015%

±0.0025%

±0.005% (50 ppm)

±0.015% (150 ppm)

±0.005% (50 ppm)

±0.0025%

±0.005%

<1%

<–42 dB

<0.00001%/V (<0.1 ppm/V)

0.1 µV/°C

III

V (a)

V (b)

VII

VIII

Figure 4 – Imprinting and Dimensions

Front View

0.300 ± 0.010

(7.62 ± 0.25)

VFR

XXXX

3XXXXX

Date Code

Year Week

0.010 ± 0.005

(0.254 ± 0.13)

Model Number

0.150 ± 0.010

(3.81 ± 0.25)

Side View

0.105 ± 0.010

(2.67 ± 0.25)

Rear View

Optional

Customer P/N

6 Digits Maximum

Resistance

Value Code

Tolerance

1.00 ± 0.125

(25.4 ± 3.18)

0.326 ± 0.010

(8.28 ± 0.25)

XXXXXX

100R01

0.01%

Lead Material

#22 AWG

(0.025 Dia.)

Solder Coated

Copper

4089-EN

Rev 27-Jan-2021

For any questions, contact

foil@vpgsensors.com

www.vishayfoilresistors.com

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