Rosemount 3100 Series Ultrasonic Level Transmitters

Rosemount 3100 Series Ultrasonic Level Transmitters
Product Data Sheet
00813-0100-4840, Rev. AC
February 2008
Rosemount 3100 Series
Rosemount 3100 Series
Ultrasonic Level Transmitters
The Rosemount 3100 Series is a loop-powered
ultrasonic transmitter designed for reliable
continuous level measurement.
THE 3100 SERIES FEATURES:
• Non-contacting measurement with no
moving parts
• Integral LCD and push-buttons as standard
for on-site programming
• Continuous measurement of level or
distance-to-surface. Volume or open channel
flow calculations for The Rosemount 3102
and Rosemount 3105
• Two integral signal relays for
The Rosemount 3102
• Easy to install and configure
• Rugged aluminum housing and PVDF wetted
material
• Two-wire direct current loop-powered
Contents
Measurement Principle . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page 2
Special Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page 2
Selecting a Rosemount 3100 Series Transmitter . . . . . . . . . . . . . . . . . . . . . . . . . . . page 4
System Integration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page 5
Installation Best Practices. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page 6
Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page 8
Temperature and Pressure Ratings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page 10
Load Limitations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page 10
Product Certifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page 11
Dimensional Drawings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page 13
Ordering Information. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page 15
www.rosemount.com
Product Data Sheet
Rosemount 3100 Series
00813-0100-4840, Rev. AC
February 2008
Reliability in a Universal Package
The Rosemount 3100 Series is a liquid level
transmitter based on ultrasonic technology that is
suitable for many liquid applications.
MEASUREMENT PRINCIPLE
Ultrasonic pulse signals are transmitted and reflected
from the liquid surface. The transmitter ‘listens’ for
reflected signals (echoes) and measures the
time-delay between transmitting and receiving.
The distance to the liquid surface is automatically
calculated using the computed time-delay.
Open Channel Flow Measurement
The Rosemount 3102 and Rosemount 3105 can also
calculate the rate of liquid flow in an open channel.
The transmitter has a library of standard open
channel flow structure profiles, but also supports a
user-defined flow profile that is plotted or calculated.
A ten-point strapping table for non-standard tank
shapes and flow structures can be input into the
transmitter.
The calculated Flow Rate can be sent through the
4–20 mA or HART output.
Level
Distance
Distance = Speed of sound in air * (Time-delay / 2)
An integral temperature
sensor continuously
measures the air
temperature around the
transmitter. It then
computes the speed of
sound in air, automatically
compensating the Distance
for temperature effects.
The 3102 and 3105 have a
Remote Temperature
Sensor option.
SPECIAL FEATURES
Advanced software features
•
Learn routine (false echo registration)
•
The transmitter can learn to ignore up to four false
echoes, caused by the pulse signal reflecting off
obstructions, until the actual level is seen.
Empty tank mapping
•
When a tank is empty, the transmitter can learn
to ignore up to four false echoes, without the
need for user interaction.
Present depth
•
When the tank is not empty, the bottom reference
can be automatically reset to the sum of a known
user-entered depth and the distance to the
surface.
Set as empty
•
When the tank is empty, the bottom reference
can be automatically reset to the measured
distance.
Distance offset
•
The distance to the surface can be adjusted by a
user-entered positive or negative offset value.
Level offset
•
The level can be adjusted by a user-entered
positive or negative offset value.
Bottom blanking
The Distance
measurement can be sent
through the 4–20 mA or
HART® output.
Level Measurement
When programmed with the bottom reference of the
application, usually the tank bottom, the transmitter
will calculate the liquid depth (Level).
The calculated Level can be sent through the
4–20 mA or HART output.
Volume Measurement
The Rosemount 3102 and Rosemount 3105 can
calculate the volume of liquid in a tank. The
transmitter has a library of profile shapes for
selection.
The transmitter can be set to ignore an area of
the tank bottom, if there is an obstruction, to
avoid false echoes.
The calculated Volume can be sent through the
4-20 mA or HART output.
Relays on The Rosemount 3102
•
2
Two integral relays for control functionality.
Product Data Sheet
Rosemount 3100 Series
00813-0100-4840, Rev. AC
February 2008
Integral display and push buttons
Remote temperature sensor option
The central area of the display allows up to five
alphanumeric measurement or data characters to
assist when programming.
All models have an integrated sensor to
automatically compensate for temperature effects.
On The Rosemount 3102 and 3105, to the left of the
central area are four arrow icons, only one of which
will be lit at any one time to indicate the
measurement chosen by the user:
• D (Distance-to-surface)
• L (Level)
• C (Content / Volume)
• F (Flow)
For transmitter installations where the integral
temperature sensor is not representative of the air /
medium temperature in the process, the use of an
external temperature sensor improves reliability.
The sensor is installed in between the transmitter
and the liquid surface, or in a shaded area of an open
channel.
On The Rosemount 3102, to the right of the central
area are two arrow icons that indicate the status of
the transmitter relay outputs RL1 and RL2. When lit,
they indicate that the relay contact is closed.
Under the central area is a list of measurement units,
where the transmitter will light the measurement units
chosen.
To the right of the measurement units is an echo
received icon made up of three arc segments that
indicate the strength of the echo received.
RL1
RL2
Integral push-buttons and display
Sensor Specification:
• Stainless steel type 316 body with locknut
(shown above)
• M10 thread, 0.24-in. (6-mm) maximum panel
thickness
• Sensor working temperature:
–40 to 185 °F (–40 to 85 °C)
• Cable working temperature:
–4 to 176 °F (–20 to 80 °C)
• Cable 16.4 ft (5 m) long, single twisted pair
Rosemount 3102/3105 Transmitter
External temperature sensor
3
Product Data Sheet
Rosemount 3100 Series
00813-0100-4840, Rev. AC
February 2008
Selecting a Rosemount 3100 Series Transmitter
Overview of models
Signal output
The Rosemount 3101 is for simple level or distance
measurements over a range of 1 to 26 ft (0,3 to 8 m),
and a 4–20 mA signal output.
The 3101 has an analog 4–20 mA output, which is
powered by the voltage supplied to the transmitter.
The 3102 has two integral relays for level or distance
measurements over a range of 1 to 36 ft (0,3 to 11 m).
It also features volume and open channel flow
calculations, and a 4–20 mA / HART output.
The 3105, certified Intrinsically Safe, is for level or
distance measurements over a range of
1 to 36 ft (0,3 to 11 m) in hazardous areas. It also
features volume and open channel flow calculations,
and a 4–20 mA / HART output.
Housing
The housing is available in aluminum, and has
two 1/2–14 NPT cable/conduit entries.
Option of M20 x 1.5 conduit/cable adaptors.
Wetted parts are made of corrosion resistant PVDF.
Process Connection
The 3102 and 3105 have a 4–20 mA output with
HART communication, powered by the voltage
supply to the transmitter.
Relay outputs
The 3102 has two relay outputs, powered by the
voltage supply to the transmitter.
Remote temperature sensor
All models have an integrated sensor for
automatically compensating for temperature effects.
The 3102 and 3105 have support for connecting a
Rosemount Remote Temperature Sensor, an
optional accessory (see page 18) that automatically
overrides the integral sensor and provides dynamic
temperature compensation.
Measurements and Calculations
3101: Level, or distance to the surface.
3102: Level (or distance), volume, open channel flow.
3105: Level (or distance), volume, open channel flow.
Threaded Connection
Threads: 2-in. BSPT or 2-in. NPT.
Optional flange accessories: See page 18.
Measurement range
3101: 1 to 26 ft (0,3 to 8 m)
3102: 1 to 36 ft (0,3 to 11 m)
3105: 1 to 36 ft (0,3 to 11 m)
Product certifications
Aluminum
Electronics
housing
(For a summary of certifications, see page 11.)
Non-hazardous area installation
2-in. mounting
thread
1
/2–14 NPT
conduit threads
PVDF transmitter wetted part
Electrical connections
(For full specification, see page 8)
Power supply
The 3100 Series requires an external power supply:
3101: 12 to 30 Vdc
3102: 12 to 40 Vdc
3105: 12 to 40 Vdc, (12 to 30 Vdc in hazardous area)
4
The 3101 and 3102 are available for:
• FM and CSA Ordinary Location installation.
Hazardous area installation
The 3105 is available for:
• FM Intrinsically Safe/Non-incendive installation.
• CSA Intrinsically Safe/Non-incendive installation.
• ATEX and IECEx Intrinsically Safe installation.
NOTE:
Product certifications are selected using the Ordering
Information (starting on page 15).
Product Data Sheet
Rosemount 3100 Series
00813-0100-4840, Rev. AC
February 2008
System Integration
The Rosemount 3100 Series transmitter uses the
same two wires for power supply and
communication.
Measurement data is transmitted as an analog
4–20 mA signal as standard.
On The Rosemount 3102 and Rosemount 3105, a
digital HART signal is superimposed on the
4–20 mA signal.
The 3100 Series requires an external power supply:
• 3101: 12 to 30 Vdc
• 3102: 12 to 40 Vdc
• 3105: 12 to 40 Vdc (30 Vdc in hazardous area).
Two Relay Outputs
(Rosemount 3102 only)
751 Display
Control system
Rosemount 3100
Series transmitter
4–20 mA / HART
Remote temperature sensor
(Rosemount 3102/3015 only)
3490 Controller
3490
HART
modem
Model type:
3491
Fn
1
2 3
4 5
6
7 8
9
. 0
-
AMS™ Suite:
Intelligent Device Manager
375 Field
Communicator
The Rosemount 3100 Series
transmitter powers PlantWeb® with
easier configuration, lower installation
costs, higher reliability and device
diagnostics that enable predictive
intelligence, reduce operating costs
and improve plant availability.
5
Product Data Sheet
Rosemount 3100 Series
00813-0100-4840, Rev. AC
February 2008
Installation Best Practices
Correct location of the transmitter is essential for the
reliable operation of any ultrasonic level
measurement system.
Max. 3°
NOTE:
The Rosemount 3100 Series is designed to be
mounted in a non-metallic fitting or flange. Please
check optional PVC flange accessories on page 18.
Use non-metallic
fitting / flange
Mounting considerations
a) The transmitter should be mounted above the
liquid surface using the 2-in. thread provided.
To help mounting, optional flanges and bracket
kits are available - see page 18.
b) Mount the transmitter vertically to ensure a
maximum echo size received.
c) Obstructions within the beam angle generate
strong false echoes; so position the transmitter to
avoid this situation.
d) To avoid detecting unwanted objects in the tank
or well, maintain a distance of at least 1.3 in. from
the center line of the transmitter for every foot
(11 cm for every meter) range to the obstruction.
e) It is recommended the transmitter be mounted no
closer than 12 in. (0,3 m) to the wall to avoid
losing echo size.
f)
Avoid applications where heavy condensation
could form on the transmitter.
g) If the transmitter is mounted in a stand-off or
nozzle, the transmitter face should protrude at
least 0.2 in. (5 mm) into the tank.
If this is not possible, see “Mounting in a nozzle
or stand-off” on page 7.
h) In environments where direct sunlight can cause
high surface temperatures on exposed
instruments, a sun-shade, or remote temperature
sensor option, is recommended.
Beam angle
max. 6°
C
1.3 in./ft
(11 m/m)
C min. = 12 in. (0,3 m)
Liquid surface conditions
a) Foaming liquids (which are poor ultrasonic
reflectors) can reduce the size of the returned
echo. An ultrasonic transmitter should be
mounted over an area of clear liquid.
b) Do not mount the transmitter directly over any
inlet stream.
c) Liquid surface turbulence is not a problem,
unless it is excessive. Normally, the effects of
turbulence are minor and excessive turbulence
can be fine-tuned on site, if necessary.
d) A still-pipe can be used to avoid foam and
turbulence.
In-tank effects
a) Stirrers or agitators can cause a vortex, so try to
mount the transmitter off-center of any vortex to
maximize the return echo.
b) As stirrer blades become uncovered, they create
echoes as they pass through the ultrasonic
beam. The transmitter can be tuned on-site to
ignore these false echoes.
6
Product Data Sheet
Rosemount 3100 Series
00813-0100-4840, Rev. AC
February 2008
Mounting in a nozzle or stand-off
Open Channel Flow installations
(Rosemount 3102 and Rosemount 3105)
Use non-metallic
fitting / flange
L
There are normally two distinct parts to an open
channel flow measurement system; the primary
element (flow structure) and the secondary element
(head measurement instrumentation). For accurate
open channel flow measurement, both parts of the
system must be accurately installed.
The transmitter should be positioned at the correct
distance upstream from the flow structure at a height
that is, at least, equal to the maximum flow depth
plus the blanking distance (dead zone) of the
transmitter (see below).
D
TABLE 1.
Nozzle Diameter Size (D)
Maximum Nozzle Length (L)
DN50 (2 in.)
3/4 in.
DN80 (3 in.)
4 in. (100 mm)
DN100 (4 in.)
4 in. (100 mm)
A minimum distance of 12.2 in. (0,31 m) is
recommended.
(18 mm)
DN125 (5 in.)
8 in. (200 mm)
≥DN150 (6 in.)
14 in. (350 mm)
Hmax + 12.2 in.
Hmax
Mounting with optional bracket kit
Stainless steel
bracket
PVC
disc
It is important that the bottom reference of the
transmitter measures the distance of the center of
the invert of the primary device (see below), and
NOT the distance to the channel bottom directly
below the transmitter.
Long Self Tap Screw
(Three Positions)
Carbon steel (zinc plated)
Transmitter front face
Flow
Channel invert
Note:
Combined weight of bracket and disc
is approximately 1 lb (0,5 kg).
NOTE
Dimension drawings for optional bracket kits are on
page 14. See also ordering information on page 18.
Primary device
(e.g. flume, weir) invert
NOTES:
• The liquid surface at the point of measurement
must be stable, smooth, and have a uniform
approach velocity. It must not be affected by
baffles, foam, hydraulic jumps or any other object
that may cause flow disruption.
• The primary element should be free from any
situation where it is likely to 'drown' (refer to the
relevant Standard for further information)
7
Product Data Sheet
Rosemount 3100 Series
00813-0100-4840, Rev. AC
February 2008
Specifications
General
Product
Measurement principle
Rosemount 3100 Series level transmitters:
The 3101: Level and Distance measurement.
The 3102: Level, Distance, Volume, and Open channel flow measurement with two integral signal relays.
The 3105: Level, Distance, Volume, and Open channel flow measurement for hazardous locations.
Ultrasonic, time-of-flight.
Measuring performance
Measurement range
Level resolution
Level accuracy
Blanking distance (Dead Zone)
Update interval
Rosemount 3101: 1 to 26 ft (0,3 to 8 m)
Rosemount 3102: 1 to 36 ft (0,3 to 11 m)
Rosemount 3105: 1 to 36 ft (0,3 to 11 m)
Better than 1/16” (1 mm)
Rosemount 3101:
± 0.2 in. (5 mm) for <3.3 ft (1 m),
± 0.5% of measured distance for >3.3 ft (1 m)
The 3102 and The 3105: ± 0.1 in. (2.5 mm) <3.3 ft (1 m),
±0.25% of measured distance for >3.3 ft (1 m) under reference conditions (1)
12 in. (0,3 m)
1 second
Display / Configuration
Integral Display
Output Units
Output Variables
Configuration tools
4/5 digit display for live measurement, and for configuration purposes.
For Level or distance-to-surface: m, ft, in, or none
For Contents: l, m3, gal, or ft3
For Flow: l/s, l/m, m3/hr, gal/s, gal/m, ft3/m (cfm), ft3/hr, or none
Rosemount 3101: Level, or distance-to-surface
Rosemount 3102: Level (or distance-to-surface), Content (Volume), and Flow.
Rosemount 3105: Level (or distance-to-surface), Content (Volume), and Flow.
Standard integral push-buttons with LCD.
375 Field Communicator.
Rosemount 3490 Series Universal Control Unit.
Rosemount AMS(TM) Suite
Electrical
Power supply
Earthing
Current Output
Signal on alarm
Saturation levels
Relay output (on Rosemount 3102)
Electrical parameters
Cable entry
Output Cabling
Loop-powered (two-wire)
Rosemount 3101: 12 to 30 Vdc
Rosemount 3102: 12 to 40 Vdc
Rosemount 3105: 12 to 40 Vdc (non-hazardous area), 12 to 30 Vdc (hazardous area).
None required.
Rosemount 3101: Analog 4–20 mA
Rosemount 3102: Analog 4–20 mA, HART.
Rosemount 3105: Analog 4–20 mA, HART.
Standard: Low = 3.75 mA. High = 21.75 mA.
Namur NE43: Low = 3.6 mA. High = 22.5 mA
Standard: Low = 3.9 mA. High=20.8 mA.
Namur NE43: Low = 3.8 mA. High = 20.5 mA
Two integral signal relays, SPST rated 1A @ 30VDC (inductive) and 2A @ 30VDC (resistive)
Ui = 30 V, li = 120 mA, Pi = 0.82 W, Li = 108μH, Ci = 0 nF.
½” - 14 NPT conduit entries for cable glands. Option: M20 x 1.5 conduit/cable adaptor.
Single twisted-pair and shielded, min. 0.22 mm2 (24 AWG), max. 1.5 mm2 (15 AWG).
Materials of construction
Wet-side material
Body and cover material
Cover seal
Cover screws
Transducer body seal
Continued on next page
8
PVDF.
Polyurethane-covered Aluminum.
Silicone rubber.
316 Stainless Steel.
EPDM.
Product Data Sheet
00813-0100-4840, Rev. AC
February 2008
Rosemount 3100 Series
Mechanical
Mounting thread size
2-in. NPT, or 2-in. BSP. Optional flange accessories available.
Measuring
Temperature compensation
Rosemount 3101:
Automatic Integral temperature compensation.
Rosemount 3102:
Automatic Integral temperature compensation. Optional remote temperature sensor for dynamic
temperature compensation. (2)
Rosemount 3105:
Automatic Integral temperature compensation. Optional remote temperature sensor for dynamic
temperature compensation. (2)
Environment
Ambient temperature
Process temperature
Process pressure
Ingress protection
Electromagnetic compatibility
Certifications
Rosemount 3101:
–4 to 158 °F (–20 to 70 °C)
Rosemount 3102 and Rosemount 3105:
–40 to 158 °F (–40 to 70 °C) (3)
Rosemount 3101:
–4 to 158 °F (–20 to 70 °C)
Rosemount 3102 and Rosemount 3105:
–22 to 158 °F (–30 to 70 °C)
–4 to 44 psi (–0,25 to 3,0 bar)
NEMA 4X, IP 66.
EN61326 (Class B)
CE-mark, FM, CSA, ATEX, or IECEx - dependent on order code.
(1) Temperature: 68 °F (20 °C), Pressure: 101.3 kPa (atmospheric pressure), and Relative Humidity: 65%.
(2) See page 18 for optional accessories.
(3) See page 11 onwards for approval temperature ranges.
9
Product Data Sheet
Rosemount 3100 Series
00813-0100-4840, Rev. AC
February 2008
Temperature and Pressure Ratings
The process temperature/pressure rating depends
on the design of the transmitter in combination with
the flange materials.
Pressure
psi (bar)
44 psi
(3 bar)
OPERATING RANGE
The final rating may be limited by
flange selection
Temperature
°F (°C)
–4 psi
(–0,25 bar)
–4 °F (–20°C) on The 3101
–22 °F (–30°C) on The 3102/3105
158 °F
(70 °C)
Process temperature and pressure diagram for Rosemount 3100 Series
Load Limitations
A HART® Communicator requires a minimum load resistance of 250 Ohm within the loop in order to function
properly. Communication with Rosemount 3490 Universal Controller does not require additional resistance. The
maximum load resistance can be determined from these diagrams:
Non-Intrinsically Safe Installations
Intrinsically Safe Installations
R (Ohms)
R (Ohms)
R (Ohms)
1244
800
800
800
533
400
533
1244
533
1244
400
0
U (V)
24
0
12
20
30
Rosemount 3101
NOTE
R = Maximum Load Resistance
U = External Power Supply Voltage
10
250
250
400
U (V)
0
12
20
30
40
Rosemount 3102 and Rosemount 3105
U (V)
0
0
12
20
Rosemount 3105
30
Product Data Sheet
Rosemount 3100 Series
00813-0100-4840, Rev. AC
February 2008
Product Certifications
ORDINARY LOCATION CERTIFICATION
FOR FM (ROSEMOUNT 3101 AND 3102)
G5
Project ID: 3024095
The transmitter has been examined and tested to determine
that the design meets basic electrical, mechanical, and fire
protection requirements by FM, a nationally recognized
testing laboratory (NRTL) as accredited by the Federal
Occupational Safety and Health Administration (OSHA).
HAZARDOUS LOCATIONS
CERTIFICATIONS (ROSEMOUNT 3105)
Factory Mutual (FM) Approvals
Factory Mutual (FM)
Intrinsically Safe Approval
I5
ORDINARY LOCATION CERTIFICATION
FOR CSA (ROSEMOUNT 3101 AND 3102)
G6
Project ID: 1878089
The transmitter has been examined and tested to determine
that the design meets basic electrical, mechanical, and fire
protection requirements by CSA, a nationally recognized
testing laboratory as accredited by the Standards Council of
Canada (SCC).
Special conditions for safe use:
1.
Project ID: 3024095
Intrinsically Safe for Class I, Div. 1, Groups A, B, C and D
Intrinsically Safe for Class I, Zone 0, AEx ia IIC
Temperature Code: T4 at 60 °C, max ambient
Temperature Code: T6 at 55 °C, max ambient
Control Drawing: 71097/1216
Ui = 30 V, li = 120 mA, Pi = 0.82 W, Li = 108 μH, Ci = 0 μF
Factory Mutual (FM)
Non-Incendive Approval
I5
For this CSA approval, the power for the Rosemount 3100
Series must be supplied from a Rosemount 3490 Series
Control Unit, or from a class 2 or SELV source.
Project ID: 3024095
Non-Incendive for Class I, Div. 2, Groups A, B, C and D
Non-Incendive for Class I, Zone 2, AEx nA IIC
Temperature Code: T4 at 60 °C, max ambient
Temperature Code: T6 at 55 °C, max ambient
Control Drawing: 71097/1216
Ui = 30 V, li = 120 mA, Pi = 0.82 W, Li = 108 μH, Ci = 0 μF
EUROPEAN DIRECTIVE INFORMATION
The EC declaration of conformity for all applicable European
directives for this product can be found on the Rosemount website
at www.rosemount.com. A hard copy may be obtained by
contacting your local sales office.
Canadian Standards Association
(CSA) Approvals
ATEX Directive (94/9/EC)
Canadian Standards Association (CSA)
Intrinsically Safe Approval
Complies with the ATEX Directive.
I6
Electro Magnetic Compatibility (EMC) Directive
Project ID: 07 CSA 1878089
Intrinsically Safe for Class I, Div. 1, Groups A, B, C, and D
Intrinsically Safe for Class 1, Zone 0, Ex ia IIC
Temperature Code:
T4 (Tamb –40 to 60 °C)
EN61326 (Class B)
T6 (Tamb –40 to 55 °C)
CE-mark
Control Drawing: 71097/1218
Ui = 30 V, li = 120 mA, Pi = 0.82 W, Li = 108 μH, Ci = 0 μF
Pressure Equipment Directive (PED) (97/23/EC)
3100 Series is outside the scope of PED Directive.
Complies with applicable directives
The 3101 (EMC)
The 3102 (EMC)
The 3105 (EMC, ATEX)
Canadian Standards Association (CSA)
Non-Incendive Approval
I6
Project ID: 07 CSA 1878089
Non-Incendive for Class I, Div. 2, Groups A, B, C, and D
Non-Incendive for Class I, Zone 2, Ex nL IIC
Temperature Code:
T4 (Tamb –40 to 60 °C)
T6 (Tamb –40 to 55 °C)
Control Drawing: 71097/1218
Ui = 30 V, li = 120 mA, Pi = 0.82 W, Li = 108 μH, Ci = 0 μF
11
Product Data Sheet
Rosemount 3100 Series
ATEX Intrinsically Safe Approval
I1
Certificate: Sira 06ATEX2260X
Intrinsically Safe for II 1 G, EEx ia IIC
Temperature Class:
T4 (Tamb –40 to 60 °C)
T6 (Tamb –40 to 55 °C)
Ui = 30 V, li = 120 mA, Pi = 0.82 W, Li = 108 μH, Ci = 0 μF
Special conditions for safe use:
1.
All transmitter models have external plastic parts, which
could present a risk of ignition due to electrostatic charge
build-up. They shall not be directly installed in any process
where its enclosure might be charged by the rapid flow of
non-conductive media.
2.
All transmitter models shall only be cleaned with a damp
cloth.
3.
When the transmitter housing uses aluminum alloy in its
construction, this presents a risk of ignition due to impact
and shall be taken into consideration on installation and use.
IECEx Approval
I7
Certificate: IECEx SIR 06.0068X
Intrinsically Safe for Zone 0, Ex ia IIC
Temperature Class:
T4 (Tamb –40 to 60 °C)
T6 (Tamb –40 to 55 °C)
Ui = 30 V, li = 120 mA, Pi = 0.82 W, Li = 108 μH, Ci = 0 μF
Special conditions for safe use:
1.
All transmitter models have external plastic parts, which
could present a risk of ignition due to electrostatic charge
build-up. They shall not be directly installed in any process
where its enclosure might be charged by the rapid flow of
non-conductive media.
2.
All transmitter models shall only be cleaned with a cloth.
3.
When the transmitter housing uses aluminum alloy in its
construction, this presents a risk of ignition due to impact
and shall be taken into consideration on installation and use.
12
00813-0100-4840, Rev. AC
February 2008
Product Data Sheet
Rosemount 3100 Series
00813-0100-4840, Rev. AC
February 2008
Dimensional Drawings
Threaded Mounting
Ø6.7 in.
(Ø170 mm)
½-14 NPT
cable entries
5.7 in.
(145 mm)
2.36 in. (60 mm)
A/F hexagon
2.6 in.
(65 mm)
2 in. thread
MIN: 12.8 in. (0,3 m)
MAX: 315 in. (8 m) for The 3101, 433 in. (11 m) for The 3102/3105
Wetside
Bottom Reference
(b.rEF)
Ø6.7 in.
(Ø170 mm)
1.9 in. (48 mm)
3.9 in.
(100 mm)
5.7 in. nom
(145 mm)
nom
½-14 NPT
cable entries
8.3 in.
(210 mm)
nom
2.36 in. (60 mm)
A/F hexagon
2 in. thread
Ø2 in.
(Ø51 mm)
13
Product Data Sheet
Rosemount 3100 Series
00813-0100-4840, Rev. AC
February 2008
2-in. NPT/BSPT Bracket Kits
2 in. NPT/BSPT
0.51 in.
(13.0 mm)
4.33 in.
(110.0 mm)
0.35 in.
(8.9 mm)
2.95 in.
(75.0 mm)
2.26 in.
(57.3)
in. )
2
m
0
.
Ø1 6.0 m
2
(Ø
Ø0
5 m .26 i
m) n.
TY
P.
(6.
1.5 in.
(38.0 )
Ø4.02 in.
(Ø102.0)
14
2.24 in.
(57.0 mm)
Product Data Sheet
Rosemount 3100 Series
00813-0100-4840, Rev. AC
February 2008
Ordering Information
The Rosemount 3101, Level of liquids
Model
Product Description
3101
Ultrasonic level transmitter
Code
Signal Output
L
4–20 mA
Code
Housing Material
A
Polyurethane-covered Aluminum
Code
Conduit / Cable Threads
1
½ –14 NPT
2
M20 x 1.5 adaptor
Code
Wet-side material
F
PVDF
Code
Process Connection
RC
2-in. NPT thread (1)
SC
2-in. BSPT thread (2)
Code
Certificates
NA
No certification
G5
FM Ordinary Location
G6
CSA Ordinary Location
Code
Options
Tag Plate
ST
Stainless Steel engraved tag plate
WT
Laminated paper tag plate
(1) Choosing this option implies US (Imperial) units of measurement are required for the default configuration. Configuration can be changed on-site.
(2) Choosing this option implies Metric units of measurement are required for the default configuration. Configuration can be changed on-site.
Example model order code: 3101-L-A-1-F-RC-G5-ST
15
Product Data Sheet
Rosemount 3100 Series
00813-0100-4840, Rev. AC
February 2008
The Rosemount 3102, Level, Volume or Flow of liquids
Model
Product Description
3102
Ultrasonic level transmitter with 2 integral relays
Code
Signal Output
H
4–20 mA with HART® communication
Code
Housing Material
A
Polyurethane-covered Aluminum
Code
Conduit / Cable Threads
1
½–14 NPT
2
M20 x 1.5 adaptor
Code
Wet-side material
F
PVDF
Code
Process Connection
RC
2-in. NPT thread (1)
SC
2-in. BSPT thread (2)
Code
Certificates
NA
No certification
G5
FM Ordinary Location
G6
CSA Ordinary Location
Code
Options
Alarms
C4
Namur alarm and saturation levels; high alarm.
C5
Namur alarm and saturation levels; low alarm.
C8
Low alarm setting with standard Rosemount alarm and saturation levels.
Tag Plate
ST
Stainless Steel engraved tag plate
WT
Laminated paper tag plate
(1) Choosing this option implies US (Imperial) units of measurement are required for the default configuration. Configuration can be changed on-site.
(2) Choosing this option implies Metric units of measurement are required for the default configuration. Configuration can be changed on-site.
Example model order code: 3102-H-A-1-F-RC-G5-C4-ST
16
Product Data Sheet
00813-0100-4840, Rev. AC
February 2008
Rosemount 3100 Series
The Rosemount 3105, Level, Volume or Flow of liquids
Model
Product Description
3105
Ultrasonic level transmitter for hazardous areas
Code
Signal Output
H
4–20 mA with HART® communication
Code
Housing Material
A
Polyurethane-covered Aluminum
Code
Conduit / Cable Threads
1
½ –14 NPT
2
M20 x 1.5 adaptor
Code
Wet-side material
F
PVDF
Code
Process Connection
RC
2-in. NPT thread (1)
SC
2-in. BSPT thread (2)
Code
Certificates
I1
ATEX Intrinsically Safe
I5
FM Intrinsically Safe and Non-Incendive
I6
CSA Intrinsically Safe and Non-Incendive
I7
IEC Ex Intrinsically Safe
Code
Options
Alarms
C4
Namur alarm and saturation levels; high alarm.
C5
Namur alarm and saturation levels; low alarm.
C8
Low alarm setting with standard Rosemount alarm and saturation levels.
Tag Plate
ST
Stainless Steel engraved tag plate
WT
Laminated paper tag plate
(1) Choosing this option implies US (Imperial) units of measurement are required for the default configuration. Configuration can be changed on-site.
(2) Choosing this option implies Metric units of measurement are required for the default configuration. Configuration can be changed on-site.
Example model order code: 3105-H-A-1-F-RC-I5-ST
17
Product Data Sheet
Rosemount 3100 Series
Spare Parts and Accessories
Code
Accessory/Spare
Accessories
03100-1001-0001
03100-1001-0002
03100-1001-0003
03100-1001-0004
03100-1002-0001
03100-1002-0003
03100-1002-0004
03100-1002-0005
03100-1003-0001 (1)
03100-1003-0002 (1)
03100-0001-0001
03100-0001-0002
2-in. NPT to 2-in. ANSI Class 150 PVC Flange
2-in. NPT to 3-in. ANSI Class 150 PVC Flange
2-in. NPT to 4-in. ANSI Class 150 PVC Flange
2-in. NPT to 6-in. ANSI Class 150 PVC Flange
2-in. BSPT to DN50 PN16 PVC Flange
2-in. BSPT to DN80 PN16 PVC Flange
2-in. BSPT to DN100 PN16 PVC Flange
2-in. BSPT to DN150 PN16 PVC Flange
2-in. NPT Mounting Bracket
2-in. BSPT Mounting Bracket
Remote Temperature Sensor (Rosemount 3102 and Rosemount 3105 only)
1/2–14 NPT to M20 x 1.5 Conduit Adaptor (Pack of two)
(1) See Mounting with optional bracket kit on page 7, and dimension drawings on page 14.
18
00813-0100-4840, Rev. AC
February 2008
Product Data Sheet
00813-0100-4840, Rev. AC
February 2008
Rosemount 3100 Series
NOTES:
19
Product Data Sheet
00809-0100-4840, Rev. AC
February 2008
Rosemount 3100 Series
Rosemount Level Solutions
Emerson provides a complete range of Rosemount products for level measurement applications.
Pressure – Level or Interface Measurement
Non-contacting Radar – Level Measurement
Emerson has a complete line of Rosemount pressure
transmitters and remote seals for measuring level or interfaces
in liquid applications. Optimize performance with direct mount,
Tuned Seal systems:
The Rosemount non-contacting radar family consists of:
• Rosemount 3051S_L, 3051L, and 1151LT Liquid Level
Transmitters
• Rosemount 1199 Remote Diaphragm Seals with direct mount
or capillary connections
Vibrating Fork Switches – Point Level Detection
• Rosemount 5400 Series Transmitters – Loop-powered
transmitter with a wide range of antennas, for liquid level
measurement in most applications and process conditions
• Rosemount 5600 Series Transmitters – Transmitters with
ultra-high sensitivity for measurement of level in liquids and
solids, even for the most challenging applications
Non-contacting Ultrasonic – Level Measurement
The Rosemount 2100 Series is developed for reliable point level
detection of liquids and consists of:
The Rosemount 3100 Series ultrasonic level transmitters provide
continuous non-contacting level measurement of liquids. The
range consisits of:
• Rosemount 2110 Compact Vibrating Fork Liquid Level Switch
• Rosemount 3101 for simple continuous level measurement
• Rosemount 2120 Full-featured Vibrating Fork Liquid Level
Switch
• Rosemount 3102 for continuous measurement with two integral
relays for local control functionality
Guided Wave Radar – Level and Interface Measurement
• Rosemount 3105 Intrinsically safe certified version for
hazardous areas
Multivariable, loop-powered Guided Wave Radar transmitters
with a wide range of probe styles to fit different liquids and solids
applications. The product line consists of:
• Rosemount 3300 Series – Versatile and easy-to-use
transmitter with proven reliability
• Rosemount 5300 Series – Accurate, high performance
transmitter with FOUNDATION™ fieldbus support
The Emerson logo is a trademark and service mark of Emerson Electric Co.
Rosemount and the Rosemount logotype are registered trademarks of Rosemount Inc.
PlantWeb is a registered trademark of one of the Emerson Process Management group of companies.
HART is a registered trademark of the HART Communication Foundation.
DeltaV is a registered trademark of Emerson Process Management group of companies.
All other marks are the property of their respective owners.
Standard Terms and Conditions of Sale can be found at www.rosemount.com\terms_of_sale
Emerson Process Management, Rosemount Inc.
The Americas
Emerson Process Management
8200 Market Boulevard
Chanhassen, MN 55317 USA
T (U.S.) 1-800-999-9307
T (International) (952) 906-8888
F (952) 949-7001
Europe, Middle East & Africa
Emerson Process Management
Shared Services Ltd.
Heath Place
Bognor Regis
West Sussex PO22 9SH
England
Tel 44 1243 845500
Fax 44 1243 867554
www.rosemount.com
© 2008 Rosemount Inc. All rights reserved.
Asia Pacific
Emerson Process Management
Singapore Pte Ltd.
1 Pandan Crescent
Singapore 128461
Tel 65 6777 8211
Fax 65 6777 0947
[email protected]
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