Winsen RPFA913CF Pyroelectric Flame Sensor User Manual

June 14, 2024
Winsen

Winsen RPFA913CF Pyroelectric Flame Sensor

Product Information

Specifications

Item Typical Unit
Window Size 5.0*5.0 mm
Sensitive element size 3*3 mm
Filter center wavelength 4.48 um
Electrical time constant 5 s
Thermal time constant 200 ms
Source Voltage 0.4~0.7 v
Working Voltage 2~15 v
Recommended voltage 3~5 v
Output signal V0 v (500K,10HZ,25)
Output noise voltage VN (10HZ, BW1HZ, 25) 150
Voltage response rate (no window) Rv 500 v/w
Specific detection rate (no window) D* (500K, 10HZ, BW1HZ, 25)
Field of view(FOV) >115
Detection distance >35 m
Working temperature/ Storage temperature -40~+85

Product Usage Instructions

Introduction:

The RPFA913CF Pyroelectric Flame Sensor is a pyro-electric flame sensor that utilizes lithium tantalate single crystal as the sensitive element material. It has the following features and applications:

Features:

  • 4.48um detection band
  • TO-5 package, single channel, voltage mode
  • Low microphone effect, large FOV, high detection rate
  • Detection band measurement of flame signal

Applications

The RPFA913CF Pyroelectric Flame Sensor is widely used in various oil storage stations, large warehouses, factory workshops, forests, charging piles, and high fire risk areas such as petroleum, chemical, paper-making, forests, and garages. It is also popular in high-end residential, commercial, and general industrial fields.

Size:

The dimensions of the Pyroelectric Flame Sensor RPFA913CF are as follows:

  • Unit: mm
  • Sensitive element size: 3*3
  • Top view:
  • Bottom view:

Internal Circuit:

The internal circuit of the sensor is as follows:

  • Sensor 1 pin Vd is the drain of the field effect transistor, and voltage is applied
  • Pin 2 Vs is the output signal
  • Pin 3 GND is grounded

Testing Circuit:

The testing circuit for the Pyroelectric Flame Sensor is as follows:

Application Circuit

The application circuit for the Pyroelectric Flame Sensor is as follows:

Filter Parameters:

The filter parameters for the Pyroelectric Flame Sensor are as follows:

Commonly Used Sensor Models

Part No. Center wavelength (nm) Full width at half maximum (FWHM) (nm) Transmittance (%)

FAQ

Q: What is the working temperature range of the Pyroelectric Flame Sensor?

A: The working temperature range of the Pyroelectric Flame Sensor is -40°C to +85°C.

Q: What is the recommended working voltage for the Pyroelectric Flame Sensor?

A: The recommended working voltage for the Pyroelectric Flame Sensor is 3-5 volts.

Q: What is the detection distance of the Pyroelectric Flame Sensor?

A: The detection distance of the Pyroelectric Flame Sensor is greater than 35 meters.

Q: What is the field of view (FOV) of the Pyroelectric Flame Sensor?

A: The field of view (FOV) of the Pyroelectric Flame Sensor is greater than 115 degrees.

Q: What are the applications of the Pyroelectric Flame Sensor?

A: The Pyroelectric Flame Sensor is widely used in various oil storage stations, large warehouses, factory workshops, forests, charging piles, and high fire risk areas such as petroleum, chemical, paper-making, forests, and garages. It is also popular in high-end residential, commercial, and general industrial fields.

Model: RPFA913CF

Version: 1.0
Valid from: 2022-09-01

Zhengzhou Winsen Electronics Technology Co., Ltd

Statement

  • This manual copyright belongs to Zhengzhou Winsen Electronics Technology Co., LTD. Without the written permission, any part of this manual shall not be copied, translated, stored in database or retrieval system, also can’t spread through electronic, copying, record ways.
  • Thanks for purchasing our product. In order to let customers use it better and reduce the faults caused by misuse, please read the manual carefully and operate it correctly in accordance with the instructions. If users disobey the terms or remove, disassemble, change the components inside of the sensor, we shall not be responsible for the loss.
  • The specific such as color, appearance, sizes &etc, please in kind prevail.
  • We are devoting ourselves to products development and technical innovation, so we reserve the right to improve the products without notice. Please confirm it is the valid version before using this manual. At the same time, users’ comments on optimized using way are welcome.
  • Please keep the manual properly, in order to get help if you have questions during the usage in the future.

RPFA913CF Pyro-electric Flame sensor

RPFA913CF pyro-electric flame sensor uses lithium tantalate single crystal as the sensitive element material. The Curie temperature of lithium tantalate crystal material is above 600℃, the relative dielectric constant is small, and the specific detectivity is high.
In a wide range of room temperature, the pyroelectric coefficient of the material changes very little with temperature, and the temperature change rate of the output signal is only 1-2‰. The temperature stability of the sensor performance is very good, and the spectral response consistency is very good in the wavelength range of 1-20um.

Features

  • 4.48um detection band;
  • TO-5 package, single channel, voltage mode;
  • Low microphone effect, large FOV, high detection rate;
  • Detection band measurement of flame signal;

Applications

It’s widely used in various oil storage stations, large warehouses, factory workshops, forests, charging piles; and standard configuration for high fire risk areas such as petroleum, chemical, paper-making, forests, and garages.
It also becomes popular in high-end residential, commercial, and general industrial fields.

Size(Unit:mm)

Parameters

Item Typical Unit
Window Size 5.0*5.0 mm
Sensitive element size 3*3 mm
Filter center wavelength 4.48 um
Electrical time constant 5 s
Thermal time constant 200 ms
Source Voltage 0.4~0.7 v
Working Voltage 2~15 v
Recommended voltage 3~5 v

Output signal V0

(500K,10HZ,25℃)

| 5.4±10%| v
Output noise voltage VN

(10HZ, BW1HZ, 25℃)

| ≤150| mv
Voltage response rate (no window) Rv

(500K, 10HZ, 25°C)

| ≥500| v/w
Specific detection rate (no window) D*

(500K, 10HZ, BW1HZ, 25℃)

| ≥5×108| cmHz½/W
Field of view(FOV)| >115| °
Detection distance| >35| m
Working temperature/ Storage

temperature

| -40~+85| ℃
Remarks: The magnification of the testing machine is 80dB.

Internal circuit

Sensor 1 pin Vd is the drain of the field effect transistor, and voltage is applied; pin 2 Vs is the output signal; pin 3 GND is grounded.
Lithium tantalate sheet and a high resistance Rg form a parallel circuit, and then connect to the gate of the field effect transistor.

Testing circuit

Application circuit

Filter parameters

Filter parameters of commonly used sensor models

Part No. RPFA913CC RPFA913CD RPFA913CE RPFA913CF RPFA913CG
Center wavelength (nm) 3800±40 4300±50 4400±40 4480±40 5000±40

Full width at half maximum

FWHM (nm)

| 180±20| 600±40| 400±20| 620±20| 180±20
Transmittance (%)| >90%| >90%| >90%| >85%| >90%

Notes

  1. Pyroelectric infrared sensors are piezoelectric and are very sensitive to sound, electromagnetic waves and vibration. When using pyroelectric infrared sensors, proper shock absorption and shielding are necessary.
  2. In order to avoid turbulent air flow and crosstalk, which may cause false alarms, when the sensor is used in the design of the flame detector, window protection (such as white sapphire, calcium fluoride or infrared glass, etc.) must be added.
  3. When welding the pyroelectric infrared sensor, it is recommended to solder at a position above 3mm. When using a soldering iron for manual soldering, the temperature of the soldering iron tip should be controlled below 350℃, and the soldering time for each location is less than 3 seconds, and the tube should be clamped with tweezers, to prevent damage to the electronic components under high temperature conditions.
  4. During the installation and use of the pyroelectric infrared sensor, prevent the sensor components from falling. The sensor should be stored in a dry environment.
  5. When operating the pyroelectric infrared sensor, the temperature of the pyroelectric infrared sensor is changed due to hand contact, especially through welding. Therefore, when the sensor is working again, it is necessary to wait for a period of time. After the temperature of the sensor is balanced, resume normal work.
  6. Do not touch the sensor window directly with your hands and hard objects. Keep the window clean. When there is dirt, use an alcohol cotton ball to gently wipe it clean.
  7. When installing the sensor, it is forbidden to apply mechanical pressure to prevent damage to the sensor’s sensitive elements, windows and other components due to the existence of pressure.
  8. When the sensor is taken out from the packaging box, and during measuring and installing, it must be equipped with electrostatic protection tools. The electrostatic protection requirement is less than 2000V to prevent the high voltage from breaking down the field effect tube of the sensor.

Note: To keep continual product development, we reserve the right to change design features without prior notice.

Zhengzhou Winsen Electronics Technology Co., Ltd
Add: No.299, Jinsuo Road, National Hi-Tech Zone, Zhengzhou

450001 China
Tel: +86-371-67169097/67169670
Fax: +86-371-60932988
E-mail: sales@winsensor.com
Website: www.winsen-sensor.com

References

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