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CYB3000 series level transmitter
2021年1月8日
CYB4500 series wireless pressure transmitters
2021年1月12日

CYB2600 series micro differential pressure transmitter


1 Introduction

CYB2600 series micro differential pressure transmitter adopts silicon MEMS Micro Pressure chip. After temperature compensation, linear compensation, signal amplification, V / I conversion, surge, reverse polarity protection and other transmission circuit signal processing, CYB2600 series micro differential pressure transmitter outputs industrial standard 4-20mA signal. All digital calibration, no movable potentiometer, temperature drift performance, stability has been improved.

This series of products adopt two isolation methods. Less than 5kPa, the chip is protected by elastic silicon gel. It is mainly used for differential pressure measurement of non corrosive gases for silicon and silicon gel. The range of 5kPa and above is measured. The chip is protected by 316L stainless steel isolation diaphragm, and is filled with silicone oil. It is suitable for medium measurement of stainless steel without corrosion.

 

2 Features

This series of transmitters are used in petroleum, chemical, metallurgy, electric power, textile, electronics, medicine, food, environmental protection and other fields, and more widely used in HVAC, purification plant and boiler automatic detection.

 

3 Technical indicators

Range

Pa

0~±100、500……1000

KPa

0、2、10……100

Form of pressure

Differential pressure

Output signal (mA)

4~20

0~ 5V (0 ~ 10) three wire system

Accuracy level

0.25

0.5

1.0

Nonlinear(FS%)

≤0.2

≤0.4

≤0.8

Hysteresis, repeatability(FS%)

≤0.05

≤0.1

≤0.2

Zero and sensitivity temperature drift (%FS/℃)

≤0.025

≤0.05

≤0.08

Long term stability(%FS/year)

≤0.2

≤0.5

≤1.0

Operating voltage(VDC)

+12~+36 (calibration value is + 24)

Compensation temperature (℃)

0~+50

Operating temperature (℃)

-40~+85

Overload capacity (%)

200

Static pressure(kPa)

≤200

Load resistance(Ω)

R=(U-12.5)/0.02-RD

Where: u is the power supply voltage and RD is the internal resistance of the cable

Response time (10% – 90%) ms

≤1

Measuring medium

<5kPa,Non corrosive gas.

≥5kPa,Compatible with 316L and silicon.

Diaphragm material

Silicon gel /316L membrane

Shell material

304、LY12

Interface

304 stainless steel Φ 7 tower nozzle

Protection level

IP66

 

4 Transmitter size

CYB2600 1.jpg          CYB2600 2.jpg

 

5 Electrical connection

CYB2600 3.jpg

 

6 Selection Guide

6.1 Model and shape

Model

Features

Pattern

CYB2612

Stainless steel square shell;Tower type nozzle, back need thread can be customized;

Pressure interface materials 304 and 316L are optional;

316L isolation diaphragm core can be selected for measuring range above 5kpa.

 CYB2600 4.jpg

CYB2613

Aluminum alloy square shell;

304 stainless steel nozzle of Ф 7 tower type;

316L isolation diaphragm core can be selected for measuring range above 5kpa.

 CYB2600 5.jpg

6.2 Selection Guide

CYB2600

Differential pressure transmitter

 

range

measuring range±100Pa…100kPa

10n

In PA, the first two digits are multiplied by the n-square of 10, and N is the third digit value.

 

 

Code name

Form of pressure

D

Differential pressure type

 

 

Code name

Supply voltage

U1

24VDC

U2

12VDC

U3

5VDC

U4

3VDC(3.3VDC)

U5

Other power supply modes

 

 

 

Code

output signal

E1

4mA~20mADC

E2

0mA~10mADC

E3

0mA~20mADC

V1

1VDC~5VDC

V2

0VDC~5VDC

V3

0VDC~10VDC

V4

0.5VDC~4.5VDC

V5

Other voltage output

R4

RS485 communication interface

I2C Protocol communication

CYB2613  [102]   D   U1     E1      Indication: cyb2613 type 1kPa differential pressure power supply, 4 ~ 20mA output。

 

7 Precautions

7.1 When receiving the product, please check whether the package is in good condition, and check whether the transmitter model and specification are consistent with the product you purchased.

7.2 Please keep the verification certificate and certificate, and return it with the product during maintenance.

7.3 Pay attention to the installation direction of the transmitter. Generally, the transmitter should be horizontally debugged and installed horizontally; the vertical installation should be explained when ordering or adjusting the zero point of the secondary instrument.

7.4 The transmitter shall not be installed in the environment of mechanical vibration and strong electromagnetic interference.

7.5 In low temperature environment, in order to ensure the accurate measurement of pressure, it is necessary to ensure the fluidity of the measured medium.

7.6 The transmitter is a precision instrument and should be stored in a dry and ventilated indoor environment to avoid direct sunlight.