SITRANS TO500

SITRANS TO500
Đăng ngày 13-06-2019 09:51:43 PM - 1408 Lượt xem
Mã sản phẩm: S000177
The SITRANS TO500 multipoint measuring system is used for evaluating a large number of temperature measuring sensors arranged on a very narrow fiber-optic temperature measuring lance. The system consists of the following components: a read-out unit, the transmitter, and the measuring lance, which can each be connected to up to 48 temperature sensors on the transmitter at four channels. With up to four measuring probes, 192 measuring points can therefore be processed at the same time by a SITRANS TO500. The extremely thin sensor measuring probe of < 2 mm is used for measured value transmission. The system is therefore particularly suitable when the user wishes to install a very large number of measuring points in a tight space and with low thermal mass, such as in tube and tube bundle reactors or in capillary or microreactors.

Số lượng

The fast and gap-free detection of temperature profiles enables the plant operator to optimize processes in terms of lifetime, quality and output. Local overheating is quickly and accurately detected, thereby preventing damage to the process, plant and environment.

SITRANS TO500 technology is based on so-called fiber Bragg gratings (FBGs) which are arranged at individually defined points on the sensor probe. The transmitter sends light waves to the fiber-optic sensors and evaluates the reflected portions. In the transmitter, light is generated in the wavelength of 1500 to 1600 nm and output to the sensor measuring probe by means of a continuously tunable laser light. Each fiber Bragg grating reflects light of a defined wavelength. The wavelength reflected by the grating varies depending on the temperature. The reflection at the FBGs is thus a measure of the temperature at the respective measuring point. A gas cell with fixed absorption line serves as a reference in the SITRANS TO500 and the wavelength determination is continuously adjusted by it.

The transmitter provides the determined values for analysis in control systems via a Profibus DP interface and makes them available for management of the assets and optimization of the process. The parameters of the SITRANS TO500 are set via the integrated Ethernet interface.

Detail

Input	FBG (fiber Bragg grating) temperature measuring probes	4 channels
	Measured variable	Temperature
	Input type	FBG sensors (max. 48 per channel)
	Characteristic curves	Temperature-linear
	Resolution	0.1 K
	Measuring accuracy	< 0.5 K
	Repeatability	< 0.5 K
	Measuring cycle	< 1 s
	Measuring range	-180°C to +400°C, depending on measuring probe type
	Unit	°C
Output	Output signal	PROFIBUS DP
	Power supply	24 V DC ± 20%
	Protection	Against reverse polarity
	Measuring speed
	Measuring rate	1 Hz, independent of the number of FBGs
	Optical Power	≤ 1 mW per channel
	Laser protection class	Class 1
Operating conditions	Ambient temperature	0 to +50°C
	Storage temperature	-40 to +85°C
	Relative humidity	< 80%, non condensing at 50°C
	Electromagnetic compatibility	According to EN 61326
	Housing	IP20
Construction	Weight	2.4 kg
	Dimensions	250 x 140 x 110 mm
	DIN rail adapter	At the back
	Material	Aluminium
Displays and buttons	LEDs	"Power-on" (continuous light) "Status" (flashing during startup; otherwise continuous light)
Displays and buttons	Pushbutton	"Reset" (system restart or address reset)

Benefits

< 2 mm diameter of the measuring lance for more reactor space due to the smaller protective tube and thus faster response times
Gap-free temperature profile due to a total of 192 measuring points for process optimization
Simple insertion of the measuring probe into the protective tube due to the rolled state, as well as low-cost transport and easy installation
Flexible, application-specific customer solution through individual positioning of the FBGs on the sensor measuring probe
Measured value transfer takes place in the same fiber; no additional cables are necessary
Especially suitable for applications in which a large number of measuring points are to be installed in a very tight space and with low thermal mass