| Product name: | UTD-3010 series (intelligent) electric float level transmitter | ||||||
| specification: | ![]() |
||||||
| Category: | instrumentation and meters -- Level transmitter | ||||||
| Price: | factory price | ||||||
| Brand: | Shanghai | ||||||
| Place of Origin: | China | ||||||
| Available Quantity: | batch | ||||||
| delivery cycle: | Spot goods (or inquire by telephone) | ||||||
|
|||||||
UTD-3010 series (intelligent) electric float level transmitter consists of a 3010 intelligent level transmitter and a 00 series float level sensor. The 3010 intelligent level transmitter is imported from Fisher Company with advanced technology and reliable performance. The float level sensor is manufactured by our factory with stable process and mature technology. The average time between failures on site is more than 80000 hours. It can measure the level, interface or liquid specific gravity and output current signals.
technical indicators
The UTD-3010 series intelligent liquid level transmitter is an instrument powered by 24V DC. The 00 series float level sensor consists of a float assembly and a torque tube assembly. The float suspended in the liquid senses changes in buoyancy, which changes the torque on the torque tube and causes a deviation in the angle of the torque tube. The 3010 liquid level transmitter accepts torque tube angle deviation conversion into 4-20mA current output with HART communication function, and the instrument's liquid crystal display (LCD) can display analog output; Process quantity (liquid level, interface height or density); Process temperature (if RTD is installed); Rotation angle and percentage of torque tube.
Main technical indicators
The UTD-3010 series (intelligent) electric float level transmitter consists of two parts: an electric transmitter (i.e. the header part) and a level sensor (i.e. the float torsion tube part). The header part is composed of Fisher3010 as the float part, which has the following structural types.
Installation of top and bottom flanges for external float 01
11. Installation of side flanges on the outer float
Installation of flange on the top side of the 21 outer float
31. Installation of bottom flange of external float
Installation of 51 inner float top flange
Installation of flange on the side of the 61 inner float
Installation of top and bottom flanges for 05 high-temperature external float
Installation of flange on the side of the 15 high temperature external float
Installation of 25 high temperature external float top flange
Installation of flange on the bottom side of the 35 high temperature external float
Output signal: 4-20mADC (including positive and negative output functions)
Linearity of header section (specific gravity=1): ± 0.25% FS
Lag: ± 0.2% FS
Overall performance (specific gravity=1, standard twisted tube):
Accuracy: ± 0.75% FS
Lag: 0.4% FS
Standard float volume and weight: ordinary type: 508 cm 3 0.95 kg
High temperature type: 638 cm 3 1.00 kg
Measurement range: 500800120016002000mm
Medium specific gravity: 0.4-1.0 g/cm3 (special ordering can be made outside this range)
Minimum specific gravity difference for interface measurement: 0.1 (standard float) (g/cm3)
Work pressure: External float type: 6.3, 16Mpa
Internal floating top type: 6.3Mpa
Internal float side type: 4Mpa
Explosion proof instrument: Explosion proof grade Exia Ⅱ CT6
Intrinsically safe instrument: Explosion proof grade Exia Ⅱ CT6
Dust explosion-proof instrument: explosion-proof grade DIP DT T13
Medium temperature: ordinary type 150 ℃, high temperature type 350 ℃
Environmental temperature: -40 to+70 ℃
Environmental humidity: 10-95%
Intrinsic safety instruments can be equipped with Zener safety barriers such as MTL787S, Z787, LB987S, KN9710, etc
Table format
|
model |
Specification |
Content |
||||||||
|
UTD-3010 |
||||||||||
|
A |
A-series sensors (with a left facing header indicating AL) have variable header orientation |
|||||||||
|
B |
B-series sensors (with a left-hand header indicating BL) |
|||||||||
|
Sensor form |
01(02) |
External float top and bottom liquid level (interface) |
||||||||
|
11(12) |
External float side liquid level (interface) | |||||||||
|
21(22) |
External float top liquid level (interface) | |||||||||
|
31(32) |
Bottom liquid level of external float (interface) | |||||||||
|
51(52) |
Internal float top liquid level (interface) | |||||||||
|
61(62) |
Internal float side liquid level (interface) | |||||||||
|
05 |
High temperature outer float top and bottom | |||||||||
|
fifteen |
High temperature outer float side | |||||||||
|
twenty-five |
High temperature outer float top and bottom | |||||||||
|
thirty-five |
Bottom side of high-temperature external float | |||||||||
|
fifty-five |
High temperature external float top installation | |||||||||
|
safe
pretend
Form
formula |
four |
PN4.0 | ||||||||
|
six point three |
PN6.3 | |||||||||
|
sixteen |
PN16 | |||||||||
|
thirty-two |
PN32 | |||||||||
|
X |
Other pressure levels | |||||||||
|
work pressure |
□□□□ |
500-2000 millimeters in British units should be marked as units: for example, [14] represents 14 hours | ||||||||
|
measurement range |
C |
Stainless steel 1Cr18Ni9Ti | ||||||||
|
G |
carbon steel | |||||||||
|
X |
Other materials | |||||||||
|
Material of cylinder and connecting flange |
A |
ExiaⅡCT6; DIP DT T13 | ||||||||
|
B |
ExdⅡBT6; DIP DT T13 | |||||||||
|
Explosion-proof marking |
0 |
Cylinder without jacket | ||||||||
|
Z1 |
Steam jacket G1/2 "external thread installation | |||||||||
|
Z0 |
Installation of steam jacket flange; Flange standard PN1.0DN15 JB/82.2-1994 | |||||||||
|
Steam jacket |
||||||||||
|
UTD-3010 |
□ |
□ |
□ |
□□□□ |
□ |
□ |
□ |
|||
Installation form: