P1K0.0805.2P.B IST, P1K0.0805.2P.B Datasheet

P1K0.0805.2P.B

Manufacturer Part Number

P1K0.0805.2P.B

Description

SENSOR, PT1000, SMD0805, CLASS B

Manufacturer

IST

Datasheet

1.P1K0.0805.2P.B.pdf (5 pages)

Specifications of P1K0.0805.2P.B

Temperature Sensing Range

-200Â°C To +200Â°C

Resistance

1kohm

External Length / Height

2mm

External Width

1.2mm

Measuring Range

Up To 200

Resistance @ Ice Point

1000ohm

Sensor

RoHS Compliant

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Platinum Temperature Sensors

General Information

In many industrial sectors and fields of research, temperature measurement is one of the most important

parameters which determines product quality, security, and reliability. Temperature sensors are available in

several types all of which have a unique performance characteristic. The performance capability of the various

sensors are a result of the manufacturing process and component materials associated with their technologies

and intended application. It is IST Charter to produce sensors that exceed the industry standard of temperature

measurement with additional capability to directly replace older traditional methods and provide the maximum

performance. To this end IST has concentrated its development and manufacturing on the process and materials

of high-end thin-film temperature sensors. Additionally these processes, partially derived from the semiconductor

industry allows IST to manufacture sensors in very small dimensions. Because of their low thermic mass thin-film

temperature sensors exhibit a very short response time. IST core technology and processes results in thin-film

sensors that combine the good features of traditional wire wound platinum sensors such as accuracy, long-term

stability, repeatability, interchangeability and wide temperature range, with the advantages of mass-production,

which contributes to their optimal price/performance ratio.

Sensor Construction

The temperature sensor consists of a photo-lithographically structured, high-purity platinum coating arranged in

the shape of a meander. The platinum thin-film structures are laser trimmed to form resistive paths with very

precisely defined basic value of the resistivity. The sensors are covered with a glass passivation layer; to protect

the sensor against mechanical and chemical damage. The bonded leadwires which are additionally covered with

a drop of glass make electrical contacts to the resistive structure.

Typical Features

– brief response time

– excellent long-term stability

– low self-heating rate

– excellent price/performance ratio

Response Time

The response time T

The response time depends on the sensor dimensions, the termal contact resistance and the encloser medium.

Long-Term Stability

The change of ohmage after 1,000 hrs at maximum operating temperature until the 7W types amounts to less

than 0.03%.

Self Heating

To measure the resistance an electric current has to flow through the element, which will generate heat energy

resulting in errors of measurement. To minimize the error, the testing current should be kept low (approximately

1 mA for pt-100). Temperature error ∆T = RI

I = measuring current in mA

Measurement current

The amount of thermal transfer from the sensor in application determines how much measuring current can be

applied. There is no bottom limit of the measurement current with platinum thin-film. The measurement current

depend highly on the application in use. For sensors from 750°C - 1000°C (7W, 8W, 10W) the measurement

current must limited at max. 1 mA.

We recommend at:

10000 Ω:

1000 Ω:

2000 Ω:

100 Ω:

500 Ω:

typ. 1 mA

typ. 0.5 mA

typ. 0.3 mA

typ. 0.2 mA

typ. 0.1 mA

0.63

is the time in seconds the sensors need to respond to 63% of the change in temperature.

max. 5 mA

max. 3 mA

max. 2 mA

max. 1 mA

max. 0.3 mA

– small dimensions

– resistant against vibration and temperature shocks

– simple interchangeability

/ E; with E = self-heating coefficient in mW/K R = resistance in kΩ,

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P1K0.0805.2P.B Summary of contents

Page 1

... The change of ohmage after 1,000 hrs at maximum operating temperature until the 7W types amounts to less than 0.03%. Self Heating To measure the resistance an electric current has to flow through the element, which will generate heat energy resulting in errors of measurement. To minimize the error, the testing current should be kept low (approximately 1 mA for pt-100). Temperature error ∆ ...

Page 2

... Platinum Temperature Sensors Nominal values The nominal or rated value of the sensor is the target value of the sensor resistance at 0° C. The temperature α coefficient is defined α and has the numerical value of 0.00385 K 100 0 100 · practice, a value multiplied often entered: TCR = 10 In this case, the numerical value is 3850 ppm/K. ...

Page 3

... Platinum Temperature Sensors Response Times and Self-Heating Dimension Sensor Size Number MiniSens 161 1.6 x 1.2 x 0.25 / 0.9 0.05 0.08 0.18 SlimSens 308 3.0 x 0.8 x 0.25 / 0.6 0.08 0.10 0.25 1.2 232 2.3 x 2.0 x 0.25 / 0.9 0.09 0.12 0.33 2.7 202 2.0 x 2.0 x 0.65 / 1.3 0.12 0.18 0.42 216 2 ...

Page 4

... Au-Pads (bondable Pads) 4FC = Without Pads 6FC = Screen printed Pads (Platinum) Solderability: 235°C ≤ 8s (DIN IEC 68 2-20, Ta Meth 1) Resistance to soldering heat: 260°C 10x (DIN IEC 68 2-20, Ta Meth. 1A) Long-term stability: Pt: max. Drift = 0.04% after 1000h at 130°C Dimensions in mm Temperature Range: -60° ...

Page 5

... Temperature range Mechanical dimensions (see various dimensions Resistance value in ohm at 0°C Characteristic curve Pt 3850 ppm 3850 ppm/K (extended temperature range in class 3750 ppm 3911 ppm/K Material identification P Platinum * Additional details, specifications required from the customer. Order example: P 1K0. 520 010. M ...

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