58-102.1 Pulsar Model R96

Pulsar® Model R96
Pulse Burst Radar
Level Transmitter
D E S C R I P T I O N
The Pulsar® R96 Radar transmitter is the latest
generation of Magnetrol® 24 VDC, loop-powered, noncontact radar transmitters. Enhanced performance and
innovative diagnostics bring simplicity to an often
complicated technology.
This latest entry into the radar level measurement field
is designed to provide unparalleled performance and
ease of use. PULSAR non-contact radar is the perfect
compliment to the MAGNETROL Eclipse® Model 706
Guided Wave Radar transmitter. Together, these transmitters offer the ultimate solution to the vast majority of
process level applications.
F E A T U R E S
T E C H N O L O G Y
• Multivariable two-wire, 24 VDC loop-powered
transmitter for level or volume
The PULSAR Radar transmitter is based on pulse burst
radar technology combined with equivalent time sampling circuitry. Short bursts of 6 GHz microwave energy
are emitted and subsequently reflected from the liquid
level surface. Distance is calculated by the equation
D = Transit time (round-trip)/2. Liquid level is then
calculated by applying the tank height value.
• Performance not process dependent (changing
specific gravity and dielectric have no effect)
• 6 GHz operating frequency offers superior performance in the tougher applications with turbulence,
foam, and heavy vapors
• Echo Rejection setup is simple, intuitive and effective
• Antenna designs to +400°F (+200°C),
-14.7 to 750 psig (-1.0 to 51.7 bar)
• Range up to 130 feet (40 meters)
A P P L I C A T I O N S
• Quick connect/disconnect antenna coupling allows
vessel to remain sealed
MEDIA: Liquids and slurries; hydrocarbons to waterbased media (dielectric 1.7–100)
• Extremely low output at antenna: < .01 mW (avg),
< 2 mW (max); hundreds of times less than a cell
phone
VESSELS: Most metal and concrete process or storage
vessels up to rated temperature and pressure. Pits and
sumps as well as glass-lined tanks.
• 4-button keypad and graphic LCD display allow for
convenient viewing of configuration parameters and
echo curve
CONDITIONS: Virtually all level measurement and
control applications including process conditions
exhibiting varying specific gravity and dielectric,
visible vapors, high fill/empty rates, turbulence, low
to moderate foam and buildup.
• Proactive diagnostics advise not only what is wrong,
but also offer troubleshooting tips
• Available for use in SIL 2 Loops (92.7% SFF, with full
FMEDA report available
• PACTware™ PC Program and enhanced DTMs for
advanced configuration and troubleshooting
• Available with HART® or FOUNDATION fieldbus™ digital
output
T E C H N O L O G Y
P U L S E
B U R S T
R A D A R
Pulse
PULSAR R96 is a top-mounted, downward-looking pulse
burst radar operating at 6 GHz. Unlike true pulse devices
(e.g. ECLIPSE Guided Wave Radar) which transmit a single,
sharp (fast rise-time) waveform of wide-band energy
(Figure 1), PULSAR emits short bursts of 6 GHz energy
(Figure 2) and measures the transit time of the signal
reflected off the liquid surface.
Distance is calculated utilizing the equation Distance equals
the Speed of light multiplied by the transit time divided by
two (Distance = C × Transit Time/2), then developing the
level value by factoring in tank height and other configuration information (Figure 3). The exact reference point for
distance and level calculations is the sensor reference point
(bottom of an NPT thread, top of a BSP thread, or face of
a flange).
The exact level measurement is extracted from false target
reflections and other background noise via the use of
sophisticated signal processing. The new PULSAR Model R96
circuitry is extremely energy efficient so no duty cycling is
necessary to accomplish effective measurement.
Figure 1
Pulse Burst
1 ns
500 ns
Figure 2
Distance = c × (time ÷ 2)
Figure 3
2
O P E R A T I O N A L
C O N S I D E R A T I O N S
Radar applications are characterized by
three basic conditions:
• Dielectric (process medium)
Sensor Reference Point
Top Blocking
Distance
• Distance (measuring range)
• Disturbances (turbulence, foam,
false targets, multiple reflections
and rate of change)
Safety
Zone
Sensor
Level
Distance
Measurement
Region
Tank
Height
The PULSAR R96 Radar transmitter is
offered with four antenna configurations:
• Polypropylene Dielectric Rod
Level Trim
• TFE Dielectric Rod
Level = Tank Height – Distance
• All-Plastic Dielectric Rod:
Polypropylene or Halar®
Bottom Blocking Distance
• 4" (100 mm) Horn
• 6" (150 mm) Horn
Distance = Sensor Level Distane - Level Trim
Maximum measuring range (distance) is measured from the
sensor reference point (bottom of NPT thread, top of BSP
thread, or face of flange) to the bottom of the tank. Refer to
Figure 4.
Ideally, the 6" (150 mm) horn antenna should be used to ensure
the best possible performance in all operational conditions.
Since that is impractical, other antennas are available. The chart
below shows the maximum measuring range of each antenna
based on dielectric and turbulence. Refer to Figure 5.
Figure 4
Sensor
Reference
Point
(NPT)
Noise and media buildup drastically decrease reliable measurement. Although it is theoretically possible to measure a liquid
level on the antenna, liquid should not be allowed closer than
2 inches (50 mm) from the bottom of the antenna due to the
decrease in accuracy when liquid level is present on the
antenna. Refer to Figure 6.
Sensor
Reference
Point
(BSP)
Sensor
Reference
Point
(Flange)
2" (50 mm)
Figure 6
R96 Maximum Recommended Measuring Range in feet (meters)
Turbulence Medium or Heavy
Turbulence None or Light
Dielectric >
1.7 - 3
3 - 10
10 - 100
1.7 - 3
3 - 10
10 - 100
16 (5)
39 (12)
66 (20)
10 (3)
29 (9)
39 (12)
33 (10)
82 (25
131 (40)
Antenna Type
Dielectric Rod
4" Horn
6" Horn
16 (5)
39 (12)
52 (16)
Figure 5
3
M O U N T I N G
>18"
(>45 cm)
The PULSAR Model R96 Radar transmitter can be mounted
on a vessel using a variety of process connections.
1/2
Radius
Generally either a threaded or flanged connection is used.
L O C A T I O N
Ideally, the Radar transmitter should be mounted 1⁄2 radius
from center of the tank providing an unobstructed signal
path to the liquid surface where it should illuminate (with
microwave energy) the largest possible surface area. Do
not install in center of tank top or within 18 inches (45 cm)
of tank wall. Tank walls may produce reflections that
must be minimized during field configuration (Antenna
Orientation). Refer to Figure 7.
B E A M
A N G L E
The various antenna designs exhibit different beam
patterns. Figure 9 shows the beam spread for all PULSAR
antennas. Ideally the beam pattern should illuminate the
maximum liquid surface with a minimum striking other
objects in the vessel including the tank wall. Use these
drawings to determine the optimum installation location.
Figure 7
O B S T R U C T I O N S
Almost any object that falls within the beam pattern will
cause reflections that may be misinterpreted as a false
liquid level. Although the PULSAR Model R96 has a powerful Echo Rejection routine, all possible precautions
should be taken to minimize false target reflections with
proper installation and orientation. Refer to Figures 8 & 9.
D
∝
∝
W
W
Beam Spread, W @-3dB; ft (m)
Antenna
Beam Angle
(∝)
Dielectric Rod
25°
4" Horn
25°
6" Horn
17°
Distance, D
10 (3)
4.5 (1.4)
3.0 (1.0)
20 (6)
8.9 (2.7)
6.0 (1.8)
30 (9)
13.3 (4.1)
9.0 (2.7)
40 (12)
17.8 (5.4)
12.0 (3.7)
50 (15)
22.2 (6.8)
15.0 (4.6)
60 (18)
26.6 (8.1)
18.0 (5.5)
65 (20)
28.9 (8.8)
130 (40)
*
29.3 (9.0)
98 (30)
*
19.5 (6.0)
39.0 (12.0)
*Dielectric rod and 4" horn not recommended beyond 65 feet (20 meters).
Figure 8
4
Figure 9
M O U N T I N G
N O Z Z L E S
Improper installation in a nozzle creates “ringing” (undesired
signals) which will adversely affect measurement. The antenna
should always be mounted so the active section of the antenna
is a minimum of 0.5" (12 mm) below the nozzle. Be sure to
include any nozzle dimension inside the vessel. Refer to Figure
10. Antenna extensions are offered to allow the PULSAR Model
R96 transmitter to work reliably in nozzles with “L” dimensions
of 1" (25 mm), 4" (100 mm), 8" (200 mm) or 12" (300 mm).
Standard antennas are shown below for reference.
∅
Dielectric Rod Antenna
Coupling
D
Inactive
Area
Horn Antenna
2" (50 mm)
Minimum Diameter
" L " Dimension (Nozzle Height)
2" (50 mm)
0.50" (13 mm)
Minimum
8" (200 mm)
2" (50 mm)
Figure 10
0.68 (17) Thread
Engagement
2.8
(55)
DIELECTRIC RODS – inches (mm)
All
All
BSP
8th Digit
Antenna
Extension
(maximum “L”
dimension)
Dim A
Dim B
Dim C
0
1 (25)
2.2 (56)
11.1 (282)
3.0 (76)
1
4 (100)
5.1 (130) 14.0 (356)
5.9 (150)
2
8 (200)
9.1 (231) 18.0 (457)
9.9 (251)
3
12 (300)
Model #
C
∅
A
D
B
13.1 (333) 22.0 (559) 13.9 (353)
Antenna Extension O.D.
Dimension D
TFE Rod
∅ 1.625 (41)
PP Rod
∅ 1.50 (38)
All-Plastic
∅ 1.625 (41)
Rod
HORNS – inches (mm)
8th Digit
Antenna
Extension
(maximum “L”
dimension)
0
1 (25)
1
4 (100)
Model #
3
(76)
H
2
8 (200)
3
12 (300)
Aperture
3" Horn
4" Horn
6" Horn
Dim H
Dim H
Dim H
2.7 (51)
4.6 (117)
N/A
2.95 (75 mm)
8.4 (213)
8.3 (211)
12.4 (315)
12.4 (315)
3.75 (95)
5.75 (146)
∅
Aperture
5
S T A N D P I P E S
A N D
S T I L L W E L L S
The PULSAR Model R96 can be mounted in a standpipe or
stillwell but certain items must be considered:
• Metal stillwells only: Sizes 3–8 inches (80–200 mm).
Index
Mark
• Diameter must be consistent throughout length; no
reducers.
• Use only horn antennas sized to pipe ID; 3–6"
(80–150mm); 8" pipe can use a 6" horn.
• Stillwell length must cover complete range of measurement (i.e., liquid must be in stillwell).
• Welds should be smooth.
• Vents: holes <0.5" diameter, slots <0.5" width.
• If an isolation valve is used, it must be a full port ball
valve with an I.D. equal to the pipe diameter.
• Bridles/Bypass Installations: The launcher (index mark)
should be rotated 90° from process connections.
• Configuration must include a non-zero entry for PIPE I.D.
Maximum Range
• There will be some increased dielectric sensitivity;
system GAIN will be reduced when PIPE ID >0.
PIPE I.D.
• There will be a slight reduction in Maximum Range
based on the table at right.
inch
mm
Propagation
Speed Factor
3
80
4
feet
meters
0.915
60.0
18.3
100
0.955
62.7
19.1
6
150
0.98
64.3
19.6
8
200
0.99
65.0
19.8
Figure 11
M O U N T I N G
O R I E N T A T I O N
The PULSAR Model R96 transmitter utilizes a
linearly polarized, microwave beam that can
be rotated to improve its performance. Proper
orientation can minimize unwanted target
reflections, decrease sidewall reflections (multipath) and maximize direct reflections from the
liquid surface. The index mark located on the
side of the launcher is oriented in the same
direction as the polarization. 45° is initially
recommended. Refer to Figure 12.
x
inde
k
mar
45°
The index mark is also present for reference
(1 dot: GP/IS or 2 dots: XP). The launcher is
considered to be at 0° when the index mark
is closest to the tank wall.
Set Screw
Universal
Connector
Figure 12
6
Maximum Range
A P P L I C A T I O N S
P U L S E
B U R S T
S T O R A G E
A N D
R A D A R
I N T E R M E D I A T E
H O L D I N G
T A N K S
CONDITIONS – Calm Surfaces
R E A C T O R S
E N C L O S E D
S U M P S
CONDITIONS – Turbulence and Foam
CONDITIONS – Turbulence, Foam, and Changing Dielectric
7
A P P L I C A T I O N S
P U L S E
B U R S T
M I X E R S
A N D
R A D A R
B L E N D I N G
V E S S E L S
CONDITIONS – Turbulence, Foam, and Changing Dielectric
C H A M B E R S
A N D
B Y P A S S
P R O B L E M A T I C
G U I D E D
W A V E
A P P L I C A T I O N S
R A D A R
A L T E R N A T I V E
Some applications can be problematic for Non-Contact
Radar. The following are examples of when Guided
Wave Radar is recommended.
• Extremely low dielectric media (εr<1.7)
• Very weak reflections from the liquid surface
(particularly during turbulence) can cause poor
performance.
• Tanks heavily cluttered with false targets (mixers,
pumps, ladders, pipes, etc.)
• During times of very low liquid levels of low dielectric media, the metal tank bottom may be detected,
which can deteriorate performance.
8
• Foam can either absorb or reflect the microwave
energy depending upon the depth, dielectric, density
and wall thickness of the bubbles. Due to typical
variations in the amount (depth) of foam, it is
impossible to quantify performance. It may be
possible to receive most, some or none of the
transmitted energy.
• Extremely high liquid level (Overflow) conditions
when liquid very near the antenna can cause
erroneous readings and measurement failure.
Refer to ECLIPSE Model 706 Guided Wave Radar
bulletin 57-106.
A G E N C Y
A P P R O V A L S
These units are in compliance with the EMC-directive 2004/108/EC, the PED-directive 97/23/EC and the ATEX directive 94/9/EC.
IEC 60079-0: 2001
IEC 60079-15: 2010
IEC 60079-26: 2006
Explosion Proof
US/Canada:
Class I, Div 1, Group B, C, D, T4
Class I, Zone 1 A Ex db ia IIB+H2 T4
Class I, Zone 1 Ex d ia IIB+H2 T4
Ta = -40º C to +70º C
Type 4X, IP67
Non- Incendive
US/Canada:
Class I, II, III, Div 2, Group A, B, C, D, E, F, G, T6
Class 1, Zone 2 AEx nA ia IIC T4
Class 1, Zone 2 Ex nA ia IIC T4
Ta = -40º C to +70º C
Type 4X, IP67
Flame Proof
ATEX – FM14ATEX0058X
II 1/2 G Ex db ia IIB + H2 T4… T1 Gb/Ga
Ta = -40º C to +70º C
IP67
ATEX - FM14ATEX0058X
II 3 G Ex nA IIC Gc T6
Ta = -15º C to +70º C
IP67
IEC- IECEx FMG 15.0034X
Ex db ia IIB + H2 T4…T1 Gb/Ga
Ta = -40º C to +70º C
IP67
Intrinsically Safe
US/Canada:
Class I, II, III, Div 1, Group A, B, C, D, E, F, G, T4
Class I, Zone 0 AEx ia IIC T4
Class I, Zone 0 Ex ia IIC T4 Ga
Ta =-40º C to + 70º C
Type 4X, IP67
ATEX – FM14ATEX0058X:
II 1 G Ex ia IIC T4 Ga
Ta = -40º C to +70º C
IP67
IEC – IECEx FMG 15.0034X:
Ex ia IIC T4 Ga
Ta = -40º C to +70º C
IP67
IEC – IECEx FMG 15.0034X
Ex nA IIC Gc T6
Ta = -15º C to + 70º C
IP67
Dust Ignition Proof
US/Canada:
Class II, III, Div 1, Group E, F, and G, T5
Ta = -15º C to +70º C
Type 4X, IP67
ATEX – FM14ATEX0059X:
II 2 D Ex ia tb IIIC T110º C Db
Ta = -15º C to +70º C
IP67
IEC – IECEx FMG 15.0034X:
Ex ia tb IIIC 100º C Db
Ex ia IIIC T85º C to T450º C Da
Ta = -15º C to +70º C
IP67
FM3600:2011, FM3610:2010, FM3611:2004, FM3615:2006, FM3616:2011, FM3810:2005, ANSI/ISA60079-0:2013,
ANSI/ISA 60079-1:2015, ANSI/ISA 60079-11:2013, ANSI/ISA 60079-15:2012, ANSI/ISA 60079-26:2011, NEMA 250:2003,
ANSI/IEC 60529:2004, C22.2 No. 0.4:2009, C22.2 No. 0.5:2008, C22.2 No. 30:2007, C22.2 No. 94:2001, C22.2 No. 213:2012,
C22.2 No. 1010.1:2009, CAN/CSA 60079-0:2011, CAN/CSA 60079-1:2011, CAN/CSA 60079-11:2014, CAN/CSA 6007915:2012, C22.2 No. 60529:2005, EN60079-0:2012, EN60079-1:2014, EN60079-11:2012, EN60079-15:2010, EN60079-26:2007,
EN60079-31:2009, EN60529+A1:1991-2000, IEC60079-0:2011, IEC60079-1:2014, IEC60079-11:2011, IEC60079-15:2010,
IEC60079-26:2006, IEC60079-31:2008
“This equipment with chargeable non-conductive parts, e.g. enclosure’s paint and antenna use PTFE, Co-polymer
Polypropylene or Noryl En265, is provided with a warning label referring to the safety measures that must be taken if there is
electrostatic charging during operation. For use in hazardous area, the equipment and side to be installed, e.g. tank, must be
connected to earth and be attention to not only the measuring object, e.g. liquids, gases, powders and etc., but also the related
conditions, e.g. tank container, vessel and etc. (According to IEC 60079- 32-1).”
FCC (ID# LPN-R9C) Compliance Statement:
This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions:
1. This device may not cause in harmful interference, and
2. This device must accept any interference received, including interference that may cause undesired operation.
Changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to
operate the equipment. To comply with FCC/IC RF exposure limits for general population/uncontrolled exposure, the antenna(s)
used for this transmitter must be installed to provide a separation distance of at least 20cm from all persons and must not be
co-located or operating in conjunction with any other antenna or transmitter.
9
T R A N S M I T T E R
S P E C I F I C A T I O N S
F U N C T I O N A L / P H Y S I C A L
System Design
Measurement Principle
Pulse burst radar 6 GHz
Input
Measured Variable
Level, determined by the time-of-flight of radar pulse reflections
Span
0.5 to 130 feet (0.2 to 40 meters)
Output
Type
4 to 20 mA with HART: 3.8 mA to 20.5 mA useable (per NAMUR NE43)
FOUNDATION fieldbus™: H1 (ITK Ver. 6.1.2)
Resolution
Loop Resistance
Analog
.003 mA
Digital Display
1 mm
591 ohms @ 24 VDC and 22 mA
Diagnostic Alarm
Selectable: 3.6 mA, 22 mA (meets requirements of NAMUR NE 43), or HOLD last output
Diagnostic Indication
Meets requirements of NAMUR NE107
Damping
Adjustable 0-10
User Interface
Keypad
4-button menu-driven data entry
Display
Graphic Liquid Crystal Display
Digital Communication
HART Version 7–with Field Communicator, FOUNDATION fieldbus™, AMS, or FDT
DTM (PACTware™), EDDL
Menu Languages
Transmitter LCD: English, French, German, Spanish, Russian
HART DD: English, French, German, Spanish, Russian, Chinese, Portuguese
FOUNDATION fieldbus Host System: English
Power (Measured at instrument terminals)
HART: General Purpose (Weather proof)/Intrinsically Safe/Explosion-proof:
11 VDC minimum under certain conditions (refer to I/O Manual 58-602)
FOUNDATION fieldbus™: 9 to 17.5 VDC
FISCO, FNICO, Explosion Proof, General Purpose and Weather Proof
Housing
Material
IP67/die-cast aluminum A413 (<0.6% copper); optional stainless steel
Net/Gross Weight
Aluminum:
Stainless Steel:
4.5 lbs. (2.0 kg)
10.0 lbs. (4.50 kg)
Overall Dimensions
H 8.34" (212 mm) × W 4.03" (102 mm) × D 7.56" (192 mm)
Cable Entry
1
SIL 2 Hardware (Safety Integrity Level)
Safe Failure Fraction = 92.7% (HART only)
⁄2" NPT or M20
Functional Safety to SIL 2 as 1oo1 in accordance with IEC 61508
(Full FMEDA report available upon request)
E N V I R O N M E N T
Operating Temperature
-40° to +175° F (-40° to +80° C); LCD viewable -5° to +160° F (-20° to +70° C)
Storage Temperature
-50° to +185° F (-45° to +85° C)
Humidity
0–99%, non-condensing
Electromagnetic Compatibility
Meets CE requirement (EN 61326) and NAMUR NE 21
NOTE: Antennas must be used in metallic or concrete vessel or stillwell to
maintain CE noise immunity
10
Surge Protection
Meets CE EN 61326 (1000V)
Shock/Vibration
ANSI/ISA-S71.03 Class SA1 (Shock); ANSI/ISA-S71.03 Class VC2 (Vibration)
P E R F O R M A N C E
Reference Conditions
Reflection from ideal reflector at +70° F (+20° C)
Linearity
±0.3 inch (8 mm) or 0.1% of tank height (whichever is greater)
Measured Error
±0.3 inch (8 mm) or 0.1% of tank height (whichever is greater)
(Performance will degrade slightly within 60" (1.5 m) of antenna)
Resolution
0.1 inch or 1mm
Repeatability
±0.2 inch (5 mm) or 0.05% of tank height (whichever is greater)
Response Time
<2 seconds (configuration dependent)
Initialization Time
< 30 seconds
Ambient Temperature Effect
Digital
Horn Antenna: Average 0.12 inch (3 mm) / 10 K, max of ±0.4 inch (10 mm) over
the entire temperature range -40° to +175° F (-40° to +80° C)
Rod Antenna: Average 0.2 inch (5 mm) / 10 K, max of ±0.59 inch (15 mm) over
the entire temperature range -40° to +175° F (-40° to +80° C)
Analog Current Output (additional error with reference to 16 mA span)
Average 0.03% / 10 K. max 0.45% over entire temperature range
-40° to +175° F (-40° to +80° C)
Maximum Rate of Change
180 inches (450 cm)/minute
FOUNDATION fieldbus™ :
ITK Version
6.1.2
H1 Device Class
Link Master (LAS) — selectable ON/OFF
H1 Profile Class
31PS, 32L
Function Blocks
(6) Al, (2) Transducer, (1) Resource, (1) Arithmetic, (1) Signal Characterizer,
(2) PID, (1) Input Selector
Quiescent Current
17 mA
Execution Time
15 ms (30 ms PID Block)
Device Revision
01
DD Version
A N T E N N A
0x01
S P E C I F I C A T I O N S
F U N C T I O N A L / P H Y S I C A L
Model
Dielectric Rod
TFE
Dielectric Rod ➀
Polypropylene
Dielectric Rod
All-Halar® Antenna
3", 4", and 6" Horn
Materials
316 SS (Hastelloy® C, Monel® and
Kynar® opt.), TFE, Viton® O-rings
316 SS, Polypropylene,
Viton® O-rings
All-Halar, Viton® O-rings
316 SS (Hastelloy C and Monel
opt.), TFE, Viton® O-rings
Process Connection
11⁄2" NPT and BSP, ANSI or
DIN flanges
11⁄2" NPT and BSP, ANSI or
DIN flanges
11⁄2" NPT and BSP, ANSI or
DIN flanges
6" ANSI or DIN flanges
Maximum Process
Temperature
+400° F @ 50 psig
(+200° C @ 3.5 bar)
+200° F @ 50 psig
(+95° C @ 3.5 bar)
+300° F @ atmos
(+150° C @ atmos)
+400° F @ 50 psig
(+200° C @ 3.5 bar)
Maximum Process
Pressure
-14.7 to 675 psig @ +70° F
(-1.0 to 46.5 bar @ +20° C)
-14.7 to 750 psig @ +70° F
(-1.0 to 51.7 bar @ +20° C)
-14.7 to 50 psig @ +70° F
(-1.0 to 3.45 bar @ +20° C)
-14.7 to 675 psig @ +70° F
(-1.0 to 46.5 bar @ +20° C)
Minimum Dielectric
(application dependent)
2.0
2.0
2.0
1.7 (1.4 with stillwells)
➀ All-polypropylene construction optional (see chart below for ratings)
800 (55)
T E M P E R A T U R E /
P R E S S U R E
C H A R T
PTFE Rod & Horn
700 (48)
Pressure psig (bar)
Polypropylene Rod
600 (41)
All-Polypropylene Flanged
500 (34)
All-Polypropylene Threaded and
Flanged ASME B31.1 & B31.3
400 (28)
All-Halar Flanged
300 (21)
All-Halar Threaded and
Flanged ASME B31.1 & B31.3
200 (14)
100 (7)
0
-50
(-45)
0
(-15)
50
(10)
100
(40)
150
(65)
200
(95)
250
(120)
300
(150)
Temperature ° F (° C)
350
(175)
400
(200)
450
(230)
11
D I M E N S I O N A L
I N C H E S
S P E C I F I C A T I O N S
( M M )
3.38
(86)
4.03
(102)
4.18
(106)
3.77
(96)
8.34
(212)
9.30
(236)
Transmitter
0.68 (17) Thread
Engagement
2.8
(55)
DIELECTRIC RODS – inches (mm)
C
∅
A
D
All
All
BSP
8th Digit
Antenna
Extension
(maximum “L”
dimension)
Dim A
Dim B
Dim C
0
1 (25)
2.3 (58)
11.1 (282)
3.0 (76)
1
4 (100)
5.1 (130) 14.0 (356)
5.9 (150)
2
8 (200)
9.1 (231) 18.0 (457)
9.9 (251)
3
12 (300)
Model #
B
Antenna Extension O.D.
Dimension D
13.1 (333) 22.0 (559) 13.9 (353)
TFE Rod
∅ 1.625 (41)
PP Rod
∅ 1.50 (38)
All-Plastic
Rod
∅ 1.625 (41)
HORNS – inches (mm)
8th Digit
Antenna
Extension
(maximum “L”
dimension)
0
1 (25)
1
4 (100)
Model #
3
(76)
H
∅
Aperture
Code
8 (200)
3
12 (300)
Aperture
O - R I N G
Material
2
( S E A L )
Maximum
Temperature
3" Horn
4" Horn
6" Horn
Dim H
Dim H
Dim H
2.7 (51)
4.6 (117)
N/A
2.95 (75)
S E L E C T I O N
Maximum
Pressure
Min.
Temp.
8.4 (213)
8.3 (211)
12.4 (315)
12.4 (315)
3.75 (95)
5.75 (146)
C H A R T
Recommended
For Use In
Not Recommended
For Use In
Viton® GFLT
0
+400° F @ 232 psig 750 psig @ +70° F
(+200° C @ 16 bar) (51.7 bar @ +20° C)
-40° F
(-40° C)
General purpose, steam,
ethylene
Ketones (MEK, acetone),
skydrol fluids, amines, anhydrous
ammonia, low molecular weight
esters and ethers, hot hydrofluoric
or chlorosulfuric acids, sour HCs
EPDM
1
+250° F @ 200 psig 750 psig @ +70° F
(+125° C @ 14 bar) (51.7 bar @ +20° C)
-60° F
(-50° C)
Acetone, MEK, skydrol fluids
anhydrous ammonia
Petroleum oils, di-ester base
lubricants, propane, steam
+400° F @ 232 psig 750 psig @ +70° F
+(200° C @ 16 bar) (51.7 bar @ +20° C)
Inorganic and organic acids
(including HF and nitric),
-40° F
aldehydes, ethylene, glycols,
(-40° C)
organic oils, silicone oils,
vinegar, sour HCs
+400° F @ 232 psig 750 psig @ +70° F
+(200° C @ 16 bar) (51.7 bar @ +20° C)
Inorganic and organic acids
(including HF and nitric),
aldehydes, ethylene, glycols,
organic oils, silicone oils,
vinegar, sour HCs, steam,
amines, ethylene oxide,
propylene oxide
Kalrez (4079)
®
Simriz SZ485
(formerly
Aegis PF128)
12
2
8
-4° F
(-20° C)
Black liquor, hot water/steam, hot
aliphatic amines, ethylene oxide,
propylene oxide, molten sodium,
molten potassium
Black liquor, Freon 43, Freon 75,
Galden, KEL-F liquid, molten
sodium, molten potassium
T R A N S M I T T E R
M O D E L
N U M B E R
Models available for quick shipment, usually within
one week after factory receipt of a complete purchase
order, through the Expedite Ship Plan (ESP).
1 | BASIC MODEL NUMBER
R96
Through-Air Radar Level Transmitter- 6 GHz Pulse Radar
4 | POWER
5
24 VDC, Two-wire
5 | SIGNAL OUTPUT
1
2
4–20 mA with HART
FOUNDATION fieldbus
6 | SAFETY OPTIONS
0
None (FOUNDATION fieldbus only) (5th digit = 2)
1
SIL 2 Hardware - HART only (5th digit = 1)
7 | ACCESSORIES
0
A
No Digital Display and Keypad
Digital Display and Keypad
8 | CLASSIFICATION
0
General Purpose, Weatherproof (IP 67)
1
Intrinsically Safe (FM & CSA)
3
Explosion-proof (FM & CSA)
A
Intrinsically Safe (ATEX/IEC)
B
Flame-proof (ATEX/IEC)
C
Non-sparking (ATEX)
D
Dust Ignition Proof
9 | HOUSING
1
Die-cast Aluminum, Dual-compartment, 45-degree
2
Investment Cast, Stainless Steel, Dual-compartment, 45-degree
10 | CONDUIT CONNECTION
R
9
6
0
1
1
M20
2
1
3
M20 with sunshade
⁄2" NPT
⁄2" NPT with sunshade
5
13
R A D A R
A N T E N N A S
D I E L E C T R I C
R O D
M O D E L
N U M B E R
TECHNOLOGY / OPERATING FREQUENCY
RA
PULSAR radar antennas / 6 GHz
CONFIGURATION / STYLE
A
B
C
TFE (Material of Construction codes A, B, C, and K only)
Polypropylene (Material of Construction codes A, G, K, and L only)
Halar® (Material of Construction codes G and L only)
MATERIAL OF CONSTRUCTION
A
B
C
G
K
L
316/316L stainless steel
Hastelloy® C
Monel®
All-Plastic wetted surfaces including flanges (Configuration/Style codes B and C only)
316/316L SS; ASME B31.1 and B31.3 (meets CRN specifications)
All-Plastic wetted surfaces; ASME B31.1, B31.3
(meets CRN specifications; Configuration/Style codes B and C, flanged only)
PROCESS CONNECTION - SIZE/TYPE ➀
Threaded
31
11⁄2" NPT thread
32
11⁄2" BSP (G 11⁄2) thread
ANSI Flanges
43
2" 150#
44
2" 300#
45
2" 600#
53
3" 150#
54
3" 300#
55
3" 600#
63
4" 150#
64
4" 300#
65
4" 600#
73
6" 150#
74
6" 300#
75
6" 600#
ANSI
ANSI
ANSI
ANSI
ANSI
ANSI
ANSI
ANSI
ANSI
ANSI
ANSI
ANSI
raised
raised
raised
raised
raised
raised
raised
raised
raised
raised
raised
raised
face
face
face
face
face
face
face
face
face
face
face
face
EN (DIN) Flanges
DA
DN 50, PN 16
DB
DN 50, PN 25/40
DD
DN 50, PN 63
EA
DN 80, PN 16
EB
DN 80, PN 25/40
ED
DN 80, PN 63
FA
DN 100, PN 16
FB
DN 100, PN 25/40
FD
DN 100, PN 63
GA
DN 150, PN 16
GB
DN 150, PN 25/40
GD
DN 150, PN 63
flange
flange
flange
flange
flange
flange
flange
flange
flange
flange
flange
flange
EN
EN
EN
EN
EN
EN
EN
EN
EN
EN
EN
EN
1092-1
1092-1
1092-1
1092-1
1092-1
1092-1
1092-1
1092-1
1092-1
1092-1
1092-1
1092-1
Type
Type
Type
Type
Type
Type
Type
Type
Type
Type
Type
Type
A
A
B2
A
A
B2
A
A
B2
A
A
B2
HYGIENIC PROCESS CONNECTIONS
4P
5P
O-RINGS ➁
0
1
2
8
2" Tri-Clamp® type, 16 AMP
3" Tri-Clamp type, 16 AMP
6P
7P
4" Tri-Clamp type, 16 AMP
6" Tri-Clamp type, 16 AMP
➀ Metal flanges welded to antenna; Plastic flanges and metal flanges with threaded antenna
connection ordered separately. Refer to Optional Flanges chart on page 15.
Viton® GFLT
EPDM
Kalrez 4079
Simriz SZ485 (formerly Aegis PF128)
➁ All-Polypropylene and All-Halar antennas (Materials of Construction Codes G and L) use Viton® GFLT O-rings
ANTENNA EXTENSION
0
1
2
3
R
14
A
For
For
For
For
0
nozzle
nozzle
nozzle
nozzle
0
height
height
height
height
≤
≤
≤
≤
1" (25 mm) (For threaded process connection only)
4" (100 mm)
8" (200 mm) (ESP designation for TFE rod only)
12" (300 mm)
R A D A R
H O R N
A N T E N N A S
M O D E L
N U M B E R
TECHNOLOGY / OPERATING FREQUENCY
RA
PULSAR radar antennas / 6 GHz
CONFIGURATION / STYLE
3
4
6
3" horn (for Standpipe/Stillwell use only; Materials of Construction codes A & K only
4" horn
6" horn
MATERIAL OF CONSTRUCTION
A
B
K
316/316L stainless steel
Hastelloy C
316/316L SS; ASME B31.1 and ASME B31.3 (meets CRN specifications)
PROCESS CONNECTION - SIZE/TYPE (metal flanges welded to antenna)
ANSI Flanges
53
54
55
63
64
65
73
74
75
3"
3"
3"
4"
4"
4"
6"
6"
6"
EN (DIN) Flanges
150#
300#
600#
150#
300#
600#
150#
300#
600#
ANSI
ANSI
ANSI
ANSI
ANSI
ANSI
ANSI
ANSI
ANSI
raised
raised
raised
raised
raised
raised
raised
raised
raised
face
face
face
face
face
face
face
face
face
flange
flange
flange
flange
flange
flange
flange
flange
flange
EA
EB
ED
FA
FB
FD
GA
GB
GD
DN
DN
DN
DN
DN
DN
DN
DN
DN
80, PN 16
80, PN 25/40
80, PN 63
100, PN 16
100, PN 25/40
100, PN 63
150, PN 16
150, PN 25/40
150, PN 63
EN
EN
EN
EN
EN
EN
EN
EN
EN
1092-1
1092-1
1092-1
1092-1
1092-1
1092-1
1092-1
1092-1
1092-1
Type
Type
Type
Type
Type
Type
Type
Type
Type
A
A
B2
A
A
B2
A
A
B2
HYGIENIC PROCESS CONNECTIONS
6P
7P
4" Tri-Clamp® type, 16 AMP Hygienic Flange
6" Tri-Clamp type, 16 AMP Hygienic Flange
O-RINGS
0
1
2
8
Viton® GFLT
EPDM
Kalrez 4079
Simriz SZ485 (formerly Aegis PF128)
ANTENNA EXTENSION
0
1
2
3
R
A
For
For
For
For
0
3" Horn in standpipes/stillwells only
nozzle height ≤ 4" (100 mm) - Configuration Style code 4 only
nozzle height ≤ 8" (200 mm)
nozzle height ≤ 12" (300 mm)
0
OPTIONAL FLANGES
(for use with Dielectric Rod Antennas; Extension Codes 1–3 only)
Part Number:
004-6852
316L stainless steel
304L stainless steel
Carbon steel
Hastelloy C
Monel
Kynar
PVC
Polypropylene
TFE
2"
150#
-001
-009
-017
-025
-033
-041
-049
-057
-065
3"
300#
-005
-013
-021
-029
-037
-045
-053
-061
-069
150#
-002
-010
-018
-026
-034
-042
-050
-058
-066
4"
300#
-006
-014
-022
-030
-038
-046
-054
-062
-070
150#
-003
-011
-019
-027
-035
-043
-051
-059
-067
6"
300#
-007
-015
-023
-031
-039
-047
-055
-063
-071
150#
-004
-012
-020
-028
-036
-044
-052
-060
-068
300#
-008
-016
-024
-032
-040
-048
-056
-064
-072
15
Q U A L I T Y
The quality assurance system in place at
MAGNETROL guarantees the highest level
The MAGNETROL quality assurance system
is registered to ISO 9001 affirming its com-
of quality throughout the company.
MAGNETROL is committed to providing full
mitment to known international quality
standards providing the strongest assurance
customer satisfaction both in quality products
and quality service.
of product/service quality available.
Several PULSAR Through-Air Radar Level
Transmitters are available for quick shipment,
usually within one week after factory
receipt of a complete purchase order,
through the Expedite Ship Plan (ESP).
To take advantage of ESP, simply match the
color coded model number codes (standard
dimensions apply).
E S P
Expedite
Ship
Plan
Models covered by ESP service are color
coded in the selection data charts.
ESP service may not apply to orders of ten
units or more. Contact your local representative for lead times on larger volume orders,
as well as other products and options.
W A R R A N T Y
All MAGNETROL electronic level and flow
controls are warranted free of defects in
materials or workmanship for one full year
from the date of original factory shipment.
to the purchaser (or owner) other than
transportation.
If returned within the warranty period; and,
upon factory inspection of the control, the
cause of the claim is determined to be cov-
MAGNETROL shall not be liable for misapplication, labor claims, direct or consequential
damage or expense arising from the installation or use of equipment. There are no
other warranties expressed or implied,
ered under the warranty; then, MAGNETROL
will repair or replace the control at no cost
except special written warranties covering
some MAGNETROL products.
For additional information, see Instruction Manual 58-602.
PULSAR Pulse Burst Radar transmitters may be protected by one or more of the following U.S. Patent Nos.:
US 6,062,095; US 6,980,174; US 7,102,584; US 7,106,248; US 7,271,646
705 Enterprise Street • Aurora, Illinois 60504-8149 • 630-969-4000 • Fax 630-969-9489
[email protected] • www.magnetrol.com
Copyright © 2016 Magnetrol International, Incorporated. All rights reserved. Printed in the USA.
Performance specifications are effective with date of issue and are subject to change without notice.
Magnetrol & Magnetrol logotype, Eclipse and Pulsar are registered trademarks of Magnetrol International, Incorporated.
Viton® and Kalrez® are registered trademarks of DuPont Performance Elastomers.
HART® is a registered trademark of the HART Communication Foundation
PACTware™ is trademark of PACTware Consortium
CSA logotype is a registered trademark of Canadian Standards Association
Halar® is a registered trademark of Allied Chemical Corp.
Hastelloy® is a registered trademark of Haynes International, Inc.
Monel® is a registered trademark of Special Metals Corporation (Formerly Inco Alloys International)
KYNAR® is a registered trademark of Pennsalt Chemicals Corp.
Tri-Clamp® is a registered trademark of Alfa Laval, Inc.
BULLETIN: 58-102.1
EFFECTIVE: January 2016
SUPERCEDES: January 2016