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Installation and Operation Manual
X-TMF-SLA5800-MFC-eng
Part Number: 541B027AAG
April, 2013
Brooks
®
Digital MFC's & MFM's
Brooks
®
SLA5850, SLA5851, SLA5853
Mass Flow Controllers Models
and Models SLA5860, SLA5861, SLA5863
Mass Flow Meters
Model SLA5850S
Analog I/O MFC
with RS-485
Model SLA5850S
Analog I/O MFC
with RS-485
Elastomer Downport
Model SLA5853S
Analog I/O MFC
with RS-485
Model SLA5850D
Digital I/O
DeviceNet
TM
MFC
with Coplanar Valve
Model SLA5850F
Digital I/O
FOUNDATION
Fieldbus MFC
with Coplanar Valve
Installation and Operation Manual
X-TMF-SLA5800-MFC-eng
Part Number: 541B027AAG
April, 2013
Brooks
®
Digital MFC's & MFM's
Installation and Operation Manual
X-TMF-SLA5800-MFC-eng
Part Number: 541B027AAG
April, 2013
Brooks
®
Digital MFC's & MFM's
Dear Customer,
We appreciate this opportunity to service your flow measurement and control requirements with a Brooks
Instrument device. Every day, flow customers all over the world turn to Brooks Instrument for solutions to their
gas and liquid low-flow applications. Brooks provides an array of flow measurement and control products for
various industries from biopharmaceuticals, oil and gas, fuel cell research and chemicals, to medical devices,
analytical instrumentation, semiconductor manufacturing, and more.
The Brooks product you have just received is of the highest quality available, offering superior performance,
reliability and value to the user. It is designed with the ever changing process conditions, accuracy requirements
and hostile process environments in mind to provide you with a lifetime of dependable service.
We recommend that you read this manual in its entirety. Should you require any additional information concerning
Brooks products and services, please contact your local Brooks Sales and Service Office listed on the back cover
of this manual or visit www.BrooksInstrument.com
Yours sincerely,
Brooks Instrument
Installation and Operation Manual
X-TMF-SLA5800-MFC-eng
Part Number: 541B027AAG
April, 2013
Brooks
®
Digital MFC's & MFM's
THIS PAGE WAS
INTENTIONALLY
LEFT BLANK
i
Brooks
®
Digital MFC's & MFM's
Contents
Installation and Operation Manual
X-TMF-SLA5800-MFC-eng
Part Number: 541B027AAG
April, 2013
Paragraph Page
Number Number
Section 1 Introduction
1-1 Scope .........................................................................................................................................1-1
1-2 Purpose......................................................................................................................................1-1
1-3 Description .................................................................................................................................1-1
1-4 Specifications .............................................................................................................................1-2
Section 2 Installation
2-1 General ......................................................................................................................................2-1
2-2 Receipt of Equipment.................................................................................................................2-1
2-3 Recommended Storage Practice ...............................................................................................2-1
2-4 Return Shipment ........................................................................................................................2-2
2-5 Transit Precaution ......................................................................................................................2-2
2-6 Removal from Storage ...............................................................................................................2-2
2-7 Gas Connections........................................................................................................................2-2
2-8 In-Line Filter ...............................................................................................................................2-3
2-9 Installation ..................................................................................................................................2-3
2-10 Electrical Interface......................................................................................................................2-5
2-11 Operation Check Procedure (Analog I/O) ..................................................................................2-9
2-12 Digital I/O: DeviceNet or FOUNDATION Fieldbus.........................................................................2-10
2-13 DeviceNet I/O Assemblies.........................................................................................................2-10
Section 3 Operation
3-1 Overview ....................................................................................................................................3-1
3-2 Theory of Operation for Flow Measurement ..............................................................................3-1
3-3 Features .....................................................................................................................................3-2
3-4 Analog I/O Mode of Operation....................................................................................................3-4
3-5 Communications Features .........................................................................................................3-6
3-5-1 RS-485 Communications Features (Analog versions only)........................................................3-6
3-5-2 RS-485 DeviceNet Communications Features ..........................................................................3-7
3-5-3 RS-485 FOUNDATION Fieldbus Communications Features .........................................................3-7
3-6 Alarms and Warnings (Analog versions only) ............................................................................3-8
3-6-1 Alarms and Warnings (Analog versions only) ............................................................................3-8
3-6-2 Diagnostic Alarms (Analog versions only) .................................................................................3-10
3-6-3 General Alarms and Warnings (Analog versions only).............................................................. 3-11
3-7 Calibration/Configuration Sets...................................................................................................3-12
3-8 Special Features .......................................................................................................................3-13
3-8-1 Setpoint Ramping......................................................................................................................3-13
3-8-2 Low Setpoint Command Cutoff .................................................................................................3-13
3-8-3 Low Flow Output Cutoff.............................................................................................................3-13
3-8-4 Flow Output Damping ...............................................................................................................3-13
3-8-5 Adaptive Control........................................................................................................................3-13
3-8-6 Flow Totalizer ............................................................................................................................3-13
3-8-7 Flow Output Conditioning ..........................................................................................................3-13
3-8-8 Flow Signal Lock-in ...................................................................................................................3-14
3-9 PC-based Support Tools ...........................................................................................................3-14
ii
Brooks
®
Digital MFC's & MFM's
Contents Installation and Operation Manual
X-TMF-SLA5800-MFC-eng
Part Number: 541B027AAG
April, 2013
Section 4 Maintenance & Troubleshooting
4-1 Maintenance and Troubleshooting .............................................................................................4-1
4-1-1 Troubleshooting Analog or DeviceNet version ...........................................................................4-2
4-1-2 System Checks ..........................................................................................................................4-4
4-1-3 Cleaning Procedures..................................................................................................................4-6
4-1-4 Calibration Procedure ................................................................................................................4-6
Section A Essential Instructions ............................................................................................................ A-1
Warranty, Local Sales/Service Contact Information....................................................................... Back Cover
Figures
Figure Page
Number Number
1-1 Open Collector Alarm Output. ....................................................................................................1-6
1-2 General Wiring ...........................................................................................................................1-6
1-3 Response Performance of Brooks Digital MFC .........................................................................1-7
1-4 Linear Ramp-up and/or Ramp-down from 200% Per Second Down to
0.5% Per Second Setpoint Change............................................................................................1-7
1-5 Model SLA5850D Digital I/O DeviceNet MFC ...........................................................................1-11
1-6 Model SLA5850S Analog I/O MFC with RS-485 Elastomer Downport Connections ................. 1-11
1-7 Model SLA5850F Digital I/O FOUNDATION Fieldbus MFC with Coplanar Valve..........................1-12
1-8 Model SLA5851D Digital I/O FOUNDATION Fieldbus MFC..........................................................1-12
1-9 Model SLA5853F Digital I/O DeviceNet MFC and Flanged Connections..................................1-13
1-10 Model SLA5853 Analog I/O MFC with Flanged Connections ....................................................1-13
1-11 Model SLA5860S Analog I/O MFM with RS-485........................................................................1-14
1-12 Model SLA5861F Digital I/O FOUNDATION Fieldbus MFM...........................................................1-14
1-13 Model SLA5863D Digital I/O DeviceNet MFM............................................................................1-15
1-14 Model SLA5863 Analog I/O MFM with Flanges..........................................................................1-15
2-1 D-Connector Shielded Cable Hookup Diagram, Voltage I/O Version..........................................2-6
2-2 Common Electrical Hookups, Voltage I/O Version ......................................................................2-6
2-3 Recommended Wiring Configuration for Current Signals (Non-Isolated Power Supply) ............2-7
2-4 Recommended Wiring Configuration for Current Signals (Isolated Power Supply) ....................2-7
2-5 RS-485 Multidrop Interconnection TMFs and PC .......................................................................2-8
3-1 Flow Sensor Operational Diagram (VCR
TM
End Connections Shown)........................................3-3
3-2 Externally Accessible Adjustment for all Meters/Controllers .......................................................3-3
4-1 Bench Troubleshooting Circuit ....................................................................................................4-2
Tables
Table Page
Number Number
1-1 Flow Ranges and Pressure Ratings...........................................................................................1-3
1-2 Calibration Select Signal ............................................................................................................1-8
1-3 Analog I/O Pin Connections .......................................................................................................1-8
2-1 Recommended Filter Size..........................................................................................................2-3
3-1 Typical Resistor Values for Calibration Selection .......................................................................3-5
4-1 Sensor Troubleshooting .............................................................................................................4-4
4-2 Troubleshooting..........................................................................................................................4-7
1-1
Section 1 Introduction
Brooks
®
Digital MFC's & MFM's
Installation and Operation Manual
X-TMF-SLA5800-MFC-eng
Part Number: 541B027AAG
April, 2013
1-1 Scope
Thank you for purchasing a Brooks Instrument Mass Flow Product. This
manual, X-TMF-SLA5800-MFC-eng is an installation and operation manual
for your instrument.
If you have purchased a Brooks
®
Digital Mass Flow Product with DeviceNet
Communications, a separate DeviceNet Instruction Manual shall also be
provided as part of the operating documentation.
1-2 Purpose
The Brooks Digital Products are mass flow measurement devices
designed for accurately measuring (MFM's) and rapidly controlling (MFC's)
flows of gases. This instruction manual is intended to provide the user with
all the information necessary to install, operate and maintain the Brooks
MFC and MFM. This manual is organized into the following sections.
Section 1 Introduction
Section 2 Installation
Section 3 Operation
Section 4 Maintenance
Section A Essential Instructions
Back Cover Warranty, Local Sales/Service Contact Information
It is recommended that this manual be read in its entirety before attempting
to operate or repair these Brooks Digital products.
1-3 Description
Brooks Instrument’s SLA5800 Series is an elastomer sealed digital thermal
mass flow measurement and control instrument, which offers unparalleled
flexibility and performance. The SLA5800 Series MFC is designed for use
in advanced gas handling systems. The result is the most accurate,
repeatable, and responsive MFC on the market today!
Wide Flow Range
The SLA5800 Series covers an extremely broad range of flowrates. Model
SLA5850 can have a full scale flow as low as 3 ccm. With a high turndown
ratio of 50:1, accurate gas flow can be measured or controlled down to
0.06 ccm! Model SLA5853 can meter or control gas flow up to 2500 lpm.
Fast Response Performance
The all-digital electronics and superior mechanical configuration in the
SLA5800 series provide for ultra fast response characteristics. Settling
times are specified as less than one second, but Brooks’ Adaptive Valve
Control can achieve response times of 0.2 sec.
Broad Array of Communication Options
Brooks
®
offers traditional 0-5 volt and 4-20mA analog options as well as
RS-485 digital communications (“S-protocol”, based on HART). Brooks
also offers control interface via digital network protocols like DeviceNet, a
high-speed (up to 500k baud) digital communication network, or
FOUNDATION
®
Fieldbus. Brooks’ communication capabilities and device-
profiles have been certified by the ODVA (Open DeviceNet Vendor’s
Association) and the ITK Interoperability Test Kit. Other network protocols
are in development. Talk to your Brooks representative about your specific
needs.
1-2
Brooks
®
Digital MFC's & MFM's
Section 1 Introduction
Installation and Operation Manual
X-TMF-SLA5800-MFC-eng
Part Number: 541B027AAG
April, 2013
Reduced Cost of Ownership
The SLA5800 Series allows multi-gas and multi-range capabilities to
reduce customer inventory. Storage and pre-programming of up to 10 gas
calibrations easily permits users to switch between different gases and
ranges on a single device.
1-4 Specifications
PERFORMANCE CHARACTERISTICS:
Flow Ranges
Models SLA5850/SLA5860 - Any FS range from 0-3 ccm to 0-50 lpm (N
2
eq.)
Models SLA5851/SLA5861 - Any FS range from 20-100 lpm (N
2
eq.)
Up to 200 lpm H
2
flows possible
Models SLA5853/SLA5863 - Any FS range from 100-2500 lpm (N
2
eq.)
Control Range
Turndown: 50:1
Turndown: 100:1 with Coplanar valve option
( for any FS range from 1-50 lpm (N
2
eq.)
Accuracy (N
2
eq. at calibration conditions)
±1.0% of rate (20% - 100% FS)
±0.2% FS (below 20% FS) up to 1200 lpm
(Optional: ±0.7% of rate ±0.2% FS ("S-Series") up to
1200 lpm
Flow ranges above 1200 lpm and up to 2500 lpm: ±1.0% of full scale
Repeatability
±0.20% of rate
Settling Time/Response Time
< 1 second to within ±2% FS of final value for a
0-100% command step (better on request)
for flow rates up to 100 lpm N
2
Eq.
< 3 seconds to within ±2% FS of final value for a
0-100% command step (better on request)
for flow rates greater than 100 lpm (N
2
eq.) up to 2500 lpm (N
2
eq.)
Sensitivity to Mounting Attitude
< 0.2% FS maximum deviation from specified accuracy, after rezeroing.
RATINGS:
Temperature Sensitivity
Zero: less than 0.05% FS per °C
Span: less than 0.1% of rate per °C
1-3
Section 1 Introduction
Brooks
®
Digital MFC's & MFM's
Installation and Operation Manual
X-TMF-SLA5800-MFC-eng
Part Number: 541B027AAG
April, 2013
Pressure Sensitivity
± 0.03% per psi up to 200 psig (N
2
eq.)
Maximum Operating Pressure
See Table 1-1 below:
Optional 4500 psig (300 bar) For 50,60 and 61 Series body only.
All devices pressure tested without fittings.
Pressure Equipment Directive (PED) 97/23/EC
See Table 1-1:
Pressure Differential Range (Controllers)
Minimum:
Model SLA5850
5 psi (0.35 bar) up to 50 lpm (N
2
eq.)
Model SLA5851
10 psi (0.69 bar) from 30 lpm to 100 lpm (N
2
eq.)
Model SLA5853
7.5 psi (0.52 bar) at 500 lpm (N
2
eq.)
14.5 psi (1.00 bar) at 1000 lpm (N
2
eq.)
35.0 psi (2.41 bar) at 2500 lpm (N
2
eq.)
High DP valve 30 psi (2.07 bar) to 290 psi (20 bar max.)
Low DP valve 7.5 psi (0.52 bar) to 30 psi (2.07 bar max.)
Minimum pressure drop depends on gas and FS flow rate (consult factory)
Leak Integrity
Inboard to Outboard: 1x10
-9
atm scc/sec Helium max.
Helium leak test performed without fittings.
Ambient Temperature Limits
Operating: 0°C to 65°C (32°F to 149°F)
Non-Operating: -25°C to 100°C (-13°F to 212°F)
Fluid Temperature Limits
0°C to 65°C (32°F to 149°F)
(1) 300 bar (4500 psi) version optional.
(2) Max. Delta P for 5853 is 20 bar (300 psi).
(3) 70 bar / 1000 psi for UL Certification.
SEP
SEP
SEP
1 for all 150 lbs flanges
2 for all other
connections
Table 1-1 Flow Ranges and Pressure Ratings
Mass Flow Mass Flow Flow Ranges Pressure PED Module H Category
Controller Meter N
2
Eq.Ratings Unit
Model: Model: Min. f.s. Max. f.s. Bar/psi
SLA5850
(1)
SLA5851
SLA5853
(2)
SLA5860
SLA5861
(1)
SLA5863
0.003
0.003
20
100
50
50
100
2500
lpm
slpm
lpm
lpm
100bar/1500 psi
300bar/4500 psi
100bar/1500 psi
(3)
70 bar/1000 psi
1-4
Brooks
®
Digital MFC's & MFM's
Section 1 Introduction
Installation and Operation Manual
X-TMF-SLA5800-MFC-eng
Part Number: 541B027AAG
April, 2013
PHYSICAL:
Materials of Construction
Wetted parts - stainless steel with Viton
®
fluoroelastomers
Optional: Buna-N, Kalrez
®
, Teflon
®
/Kalrez and EPDM
Outline Dimensions
Refer to Figures 1-5 thru 1-13
Process Connections
Refer to Figures 1-5 thru 1-13
Reference Conditions
Due to effects of pressure and temperature on the compressibility of gases, specific reference conditions must be used when
reporting volumetric flow rates in mass flow terms. For example, the unit of measure SCCM (standard cubic centimeters per
minute) refers to a volumetric gas flow at a standard reference condition, NOT the actual volumetric gas flow at the actual
operating pressure and temperature. The key point is that the MASS FLOW of the gas is fixed, but the reference volumetric
flow can be reported differently based upon the standard reference condition used in the calculation.
Throughout the world, there are differences in terminology when describing reference conditions for gases. The words
“normal conditions” and “standard conditions” are sometimes used interchangeably to describe the reference STP (Standard
Temperature and Pressure) for gases. Further note that temperature and pressure values for standard or normal reference
conditions vary in countries and industries worldwide. For example, the Semiconductor Equipment Manufacturing Industry
(SEMI) defines standard temperature and pressure conditions as 273.15 K (0 °C) and 101,325 Pa (760 torr). The main
concern is that no matter what words are used for descriptive purposes, a gas mass flow rate must have a defined standard
pressure and temperature reference condition when performing a volumetric conversion.
ELECTRICAL CHARACTERISTICS:
Analog/RS-485 version: 15-pin D-Connector, male
Digital I/O:
DeviceNet: 5-pin Micro-Connector, male
FOUNDATION Fieldbus: 4-pin Micro-Connector, male
Power Supply Voltage
Analog option: 13.5-27 Vdc,
Digital I/O:
DeviceNet I/O: 11-25 Vdc
FOUNDATION Fieldbus I/O: 14-27 Vdc
SLA5851S Model: 22-27 Vdc
Power Requirements:
Command/Setpoint Input (Analog I/O capabilities)
Voltage and Current type inputs (but not both simultaneously) are
Watts, typical Watts, max.
Analog I/O option, no valve: 1.6 1.8
Analog I/O option, with valve: 3.6 4.0
Digital I/O option, n.v.: 3.6 4.0
Digital I/O option, w.v.: 6.9 7.6
1-5
Section 1 Introduction
Brooks
®
Digital MFC's & MFM's
Installation and Operation Manual
X-TMF-SLA5800-MFC-eng
Part Number: 541B027AAG
April, 2013
supported.
Setpoint input types are software selectable as follows:
0 - 5 Vdc
1 - 5 Vdc
0 - 20 mA
4 - 20 mA
Voltage Setpoint Input Specifications
Nominal Range: 0 - 5 Vdc
Full Range: 0 - 5.5 Vdc
Absolute Max.: 20 V
(Without Damage)
Input Impedence: >990 kΩ
Calibrated Accuracy: +0.1% of F.S.
Current Setpoint Input Specifications
Nominal Range: 4 - 20 mA or 0 - 20 mA
Full Range: 0 - 22 mA
Absolute Max.: 25 mA
(Without Damage)
Input Impedence: 125 Ω
Calibrated Accuracy: +0.1% of F.S.
Flow Output (Analog I/O version only)
Voltage and current type outputs (but not both simultaneously) are
supported. Flow output types are selectable as follows.
0 - 5 Vdc
1 - 5 Vdc
0 - 20 mA
4 - 20 mA
Flow Output (Voltage) Specifications
Nominal Range: 0 - 5 Vdc, 1 - 5 Vdc
Calibrated Accuracy: +0.1% of F.S.
Full Range: -0.5 - 5.5 Vdc (@ 0-5 Vdc); 0.6 - 5.5 Vdc (@ 1-5 Vdc)
Min. Load Resistance:2 kΩ
Flow Output (Current) Specifications
Nominal Range: 4 - 20 mA or 0 - 20 mA
Calibrated Accuracy: +0.1% of F.S.
Full Range: 0-22 mA (@ 0-20 mA); 3.8-22 mA (@ 4-20 mA)
Max. Load: 380 Ω (for supply voltage < 16 Vdc)
580 Ω (for supply voltage > 16 Vdc)
Valve Override Signal (Analog I/O version only)
The Valve Override Signal (VOR) is implemented as an analog input which
measures the voltage at the input and controls the valve based upon the
measured reading as follows:
Valve Override Signal Drive Settings (Analog I/O Versions only)
Floating / Unconnected: Instrument controls valve to command setpoint
VOR < 0.3 Vdc: Valve Closed
VOR > 4.8 Vdc: Valve Open
1-6
Brooks
®
Digital MFC's & MFM's
Section 1 Introduction
Installation and Operation Manual
X-TMF-SLA5800-MFC-eng
Part Number: 541B027AAG
April, 2013
Alarm Output (Analog I/O versions only)
The Alarm Output is an open collector or "contact" type that is CLOSED
(on) whenever an alarm is active. The Alarm Output may be set to indicate
any one of various alarm conditions. Reference Section 3-6-2 for more
information on alarms.
Type: Open Collector
Max Closed (ON) Current: 25 mA
Max Open (OFF) Leakage: 1 μA
Max Open (OFF) Voltage: 30 Vdc
0.3 Vdc
> VOR > 4.8 Vdc: Undefined
Valve Override Signal Specifications (Analog I/O Versions only)
Input Impedence: 800 kΩ
Absolute Max. Input: -25 Vdc > VOR > 25 Vdc
(without damage)
5 Volt Reference Signal (Analog I/O versions only)
A 5 Vdc reference output is provided to the customer for use in generating
a setpoint and/or Valve Override signal. The current drive of this output is
very limited and must be used with care.
Min. Load Resistance:2 kΩ (2.5 mA maximum)
Accuracy:
+1.0%
Figure 1-2 General Wiring
Figure 1-1 Open Collector Alarm Output
1-7
Section 1 Introduction
Brooks
®
Digital MFC's & MFM's
Installation and Operation Manual
X-TMF-SLA5800-MFC-eng
Part Number: 541B027AAG
April, 2013
Figure 1-4 Linear Ramp-up and/or Ramp-down from 200% Per Second Down to
0.5 % Per Second Setpoint Change
Figure 1-3 Response Performance of Brooks Digital MFC
Fast Response Performance
The curves in Figure 1-3 depict the MFC output signal and actual
transitional flow to steady-state when gas flow enters into process
chamber, under a step response command condition.
Brooks devices also feature adaptive (optimized) PID control, including fast
response. and linear ramp-up and/or ramp-down control characteristics.
Calibration Curve Selection (Analog I/O versions only)
Select one of ten gases and select PID tuning settings in analog mode.
Requires external connection of resistors between Pin # 13 and Pin # 9.
(Reference Tables 1-2 and 1-3.)
Selectable Soft Start
Processes requiring injection of gases can be adversely affected by
excessive initial gas flow. This abrupt injection of gas can result in process
damage from explosion or initial pressure impact. These problems are
virtually eliminated with the soft start feature.
Traditional soft start or linear ramp-up and/or ramp-down (See Figure 1-4)
can be factory selected or are available via the Brooks Service Suite
TM
.
Linear ramp-up is adjustable at 200% per second down to 0.5% per
second setpoint change.
1-8
Brooks
®
Digital MFC's & MFM's
Section 1 Introduction
Installation and Operation Manual
X-TMF-SLA5800-MFC-eng
Part Number: 541B027AAG
April, 2013
RS-485 Communications
The Brooks Digital Series is equipped with RS-485 communication
capability. Refer to Table 1-3 (Analog I/O pin connections), that enables the
device to communicate via a personal computer for process control.
Baud rate selections for the Brooks Digital Series related to RS-485 are:
1200, 2400, 4800, 9600, 19200 and 38400 baud and can be selected via
the Brooks service Suite
TM
.
The RS-485 is essentially a multidrop connection. It allows a maximum of
32 devices to be connected to a computer system. IBM-compatible PC's
are not equipped with RS-485 ports as standard. An RS-232 to RS-485
converter or RS-485 interface board is therefore required to connect an
RS-485 network to a standard pc. The RS-485 bus, a daisy chain network,
meaning that the wires are connected at the units as in Figure 1-2.
DEFAULT = CAL# 1 (External resistor not installed)
CAL Resistor Value (k ohms) CAL Resistor Value (k ohms)
1 Not Installed 6 124
2 Shorted 7 80.6
3 665 8 52.3
4 324 9 30.9
5 191 10 15
Table 1-3 Analog I/O Pin Connections:
Table 1-2 Calibration Select Signal.
Function PIN
Setpoint, Common Input (-) 1
Flow Signal, 0(1) -5 volt, Output (+) 2
TTL Alarm, open collector, Output (+) 3
Flow Signal, 0(4)-20 mA, Output (+) 4
Power Supply, +13.5 Vdc to +27 Vdc(+) 5
Not Connected 6
Setpoint, 0(4)-20 mA, Input (+) 7
Setpoint, 0(1)-5 Vdc, Input (+) 8
Power Supply, Common (-) 9
Flow Signal, Common, Output, (-) 10
Reference, +5 Vdc, Output (+) 11
Valve Override, Input 12
Calibration Select Input 13
RS-485 Common B (-) 14
RS-485 Common A (+) 15
1-9
Section 1 Introduction
Brooks
®
Digital MFC's & MFM's
Installation and Operation Manual
X-TMF-SLA5800-MFC-eng
Part Number: 541B027AAG
April, 2013
DeviceNet Communications
The Brooks SLA5800 Digital Series is also available with DeviceNet
TM
communication capability. DeviceNet is an open digital protocol capable of
high speeds and easy system connectivity. Brooks Instrument has several
of its devices available on this popular networking standard, and is a
member of ODVA
TM
(Open DeviceNet Vendors Association), the governing
standard body for DeviceNet.
DeviceNet
is similar to the RS485 standard in that it is a multi-drop
connection that allows a maximum of 64 devices to be connected on the
same network. Baud rate selections for DeviceNet
products are 125K,
250K and 500K and can be selected via MAC ID switches mounted on the
device.
The DeviceNet
communication link also provides access to many of the
Brooks SLAMf Digital Series functions for “control and monitor” operations,
including:
Accurate setpoint adjustment and flow output measurement (including
units of measure selection)
PID Settings (controller only)
Valve Override (controller only)
Calibration Gas Select
Soft Start Control (controller only)
FOUNDATION
®
Fieldbus Communications:
The Brooks SLA5800 Digital Series is supporting FOUNDATION
®
Fieldbus
communication protocol. FOUNDATION
®
Fieldbus is a digital network allowing
usage of existing 4-20mA cables, avoiding costly re-wiring. Fully certified
by passing ITK, this device has passed several Interoperability
requirements over a broad range of hosts. When combined with DeltaV
and using the power of PlantWeb, those devices provide intelligent alerts
allowing accurate device maintenance and service.
Value Range check - Part of the standard function blocks
Temperature sensor connection - Check sensor connection
Firmware checksum - Check for Internal firmware integrity
Non-volatile memory - Check for non-volatile memory integrity
RAM - Check for RAM integrity
Zero Drift/Valve Leak-by - Check for flow leak-by or sensor zero drift
Device Overhaul due - Preventive Maintenance
Calibration Due - Preventive Maintenance
Valve spring life - Preventive Maintenance
No Flow - No flow detected when setpoint requested
Reverse Flow - Reverse flow detected
· Flow Totalizer - Informed when a user define amount of fluid has
been delivered
· Time Totalizer - Informed when a user define amount of time has
expired
Device type dependant function block are available representing the
different device functions:
Current Flow Value (Mass Flow device only)
Current Pressure Value (Pressure device only)
Current Device Temperature (Mass Flow device only)
Current Valve position (Controller Only)
Setpoint Control (Controller Only)
Direct Valve Control (Controller Only)
Actuator Override (Controller Only)
Ultra-fast (8ms) PID function block for Cascade control
(all devices)
1-10
Brooks
®
Digital MFC's & MFM's
Section 1 Introduction
Installation and Operation Manual
X-TMF-SLA5800-MFC-eng
Part Number: 541B027AAG
April, 2013
Certifications:
EMC Directive 89/336/EEC:
per EN 61326
Hazardous Location Classification
Enclosure: Type 1/IP40
Ambient Temperature: 0°F > Tamb < 150°F (0°C > Tamb < 65°C)
United States and Canada
UL Recognized: E73889 Volume 3, Section 4
Class 1, Zone 2, AEx nA II T4
Per ANSI/ISA 12.12.02 - 2003 and ANSI/UL 60079-15
Ex nA II T4
Per CSA - E79 - 15
Europe - ATEX Directive 94/9/EC
KEMA 04ATEX1118X
Per EN 60079-15: 2003
The product shall be installed in a suitable enclosure providing a degree of
protection of at least IP54 according to EN60529, taking into account the
environmental conditions under which the equipment will be used.
Pressure Equipment Directive (97/23/EC):
See Table 1-1 for further pressure information
PC-based Support Tools
Brooks Instrument offers a variety of PC-based process control and service tools to meet the needs of our
customers. SmartDDE may be used with any unit supporting RS-485 in a multidrop configuration, thus allowing
users to control and monitor their Brooks devices. The Brooks Service Tool
TM
(BST) may be used to monitor,
diagnose, tune and calibrate Brooks devices equipped with DeviceNet or FOUNDATION Fieldbus communications.
The Brooks Service Tool
TM
interfaces with Brooks products via a special service port.
1-11
Section 1 Introduction
Brooks
®
Digital MFC's & MFM's
Installation and Operation Manual
X-TMF-SLA5800-MFC-eng
Part Number: 541B027AAG
April, 2013
Figure1-5 Model SLA5850D Digital I/O Devicenet MFC
Figure 1-6 Model SLA5850S Analog I/O MFC with RS-485 Elastomer Downport Connections
1-12
Brooks
®
Digital MFC's & MFM's
Section 1 Introduction
Installation and Operation Manual
X-TMF-SLA5800-MFC-eng
Part Number: 541B027AAG
April, 2013
Figure 1-8 Model SLA5851D Digital I/O DeviceNet MFC
Figure 1-7 Model SLA5850F Digital I/O F
OUNDATION Fieldbus MFC with Coplanar Valve
1-13
Section 1 Introduction
Brooks
®
Digital MFC's & MFM's
Installation and Operation Manual
X-TMF-SLA5800-MFC-eng
Part Number: 541B027AAG
April, 2013
Figure 1-10 Model SLA5853S Analog I/O MFC with Flanged Connections
Figure 1-9 Model SLA5853F Digital I/O FOUNDATION Fieldbus MFC
1-14
Brooks
®
Digital MFC's & MFM's
Section 1 Introduction
Installation and Operation Manual
X-TMF-SLA5800-MFC-eng
Part Number: 541B027AAG
April, 2013
Figure 1-12 Model SLA5861F Digital I/O FOUNDATION Fieldbus MFM
Figure 1-11 Model SLA5860S Analog I/O MFM with RS-485
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Brooks SLA5860 Instrucțiuni de utilizare

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Instrucțiuni de utilizare
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