beautypg.com
Manuals
Brands
Honeywell Manuals
Transmitter
SMV800
Honeywell SMV800 Manuals
Manuals and User Guides for Honeywell SMV800. We have
5
Honeywell SMV800 manuals available for free PDF download: User Manual, Quick Start Installation Manual
Honeywell SMV800 User Manual (304 pages)
HART/DE Option
Brand:
Honeywell
| Category:
Transmitter
| Size: 9.76 MB
Table of Contents
Table of Contents
5
SMV800 Physical and Functional Characteristics
13
Overview
13
Features and Options
13
Table 1 - Features and Options
13
Physical Characteristics
14
Figure 1 - SMV800 Major Assemblies
14
Figure 2 - Electronics Housing Components
14
Functional Characteristics
15
Series, Model Series, Model and Number
15
Figure 3 -Typical Name Plate Information
15
Safety Certification Information
16
Transmitter Adjustments
16
Local Display Options
17
Optional 3-Button Assembly
17
Table 2 - Available Display Characteristics
17
Universal Temperature Sensor Option Licensing
18
Communication Modes
19
Overview
19
DE Mode Communication
19
Figure 4 - de Communication through SCT
19
Figure 5 - de Mode Value Scaling
20
HART Mode Communication
21
Figure 6 - HART Point-To-Point and Multi-Drop Value Scaling
21
Configuration Tools and Interfaces
23
Overview
23
Pre-Requisites
23
Application Design, Installation, Startup, and Operation
23
Organization
23
Table 3 - User Manual Related Topics
23
Toolkit Participation
24
Toolkit Software Applications
24
Configuration Databases
24
Configuration
24
MC Toolkit-Transmitter Electrical/Signal Connections
25
Figure 7 - MC Toolkit-Transmitter Electrical/Signal Connections
25
Smartline Configuration Toolkit (SCT 3000)
26
Smartline Configuration Toolkit for Use with de Models
26
Figure 8 - Smartline Configuration Tool
26
Considerations for SCT 3000
27
SCT 3000 Requirements
27
Setting up Communications with the SCT3000
28
Establishing Communications
28
Off-Line Versus On-Line SMV Configuration
28
Off-Line Configuration Procedures
28
SCT Hardware Connections
28
Figure 9 - SCT Hardware Components
28
SCT 3000 On-Line Connections to the SMV
29
Table 4 - Making SCT 3000 Hardware Connections
29
Establishing On-Line Communications with the SMV
30
Table 5 - Making SCT 3000 On-Line Connections
30
Checking Communication Mode and Firmware Version
31
DE Communication
31
Changing Communication Mode
31
5 DE Transmitter Configuration
32
Configuration Personnel Requirements
32
Configuration Using the SCT3000
32
SCT On-Line Help and User Manuals
32
About Configuration
32
Configuration Summary
33
Figure 10 - SMV On-Line Configuration Process
33
Using the SCT for SMV800 Configuration
34
Device Configuration
35
Transmitter Tag Name and PV1 Priority
35
General Configuration
35
Table 6 - PV Type Selection for SMV Output
35
Table 7 - SMV Analog Output Selection
36
Dpconf Configuration - PV1
37
Table 8 - Pre-Programmed Engineering Units for PV 1
37
Figure 11 - Square Root Dropout Points for PV 1
40
SP Conf Configuration - PV2
41
Table 9 - Pre-Programmed Engineering Units for PV2
41
Tempconf Configuration - PV3
43
Table 10 - Pre-Programmed Engineering Units for PV3
43
Table 11 - Sensor Types for PV3 Process Temperature Input
44
Figure 12 - RTD Range Configuration
46
Figure 13 - Current Range Settings
47
Flowconf Configuration - PV4
48
Table 12- Pre-Programmed Volumetric Flow Engineering Units for PV4
48
Table 13 - Pre-Programmed Mass Flow Engineering Units for PV4
49
Figure 14 - Typical Volumetric Flow Range Setting Values
50
Figure 15 - Low Flow Cutoff
51
Using Custom Engineering Units
52
Flow Compensation Wizard (de Only)
53
Table 14 - Primary Flow Elements
53
Using the SCT3000 Tool to Configure Local Display Screens on SMV800
55
Display Screen Configuration Instructions
55
Display Screen Configuration Parameters
60
Table 15 - Display Screen Configuration Parameters
60
Table 16 - Display Screen Configuration Parameters Details
61
Saving, Downloading and Printing a Configuration File
63
Verifying Flow Configuration
63
HART Transmitter Configuration
64
Overview
64
Personnel Requirements
64
Overview of FDC Homepage
65
Figure 16 - FDC Homepage
65
Table 17 - FDC Homepage Elements
65
Settings
66
Manage Dds
67
Online Configuration
69
Offline Configuration
69
Online Configuration Overview
69
Overview of Device Homepage
70
Tabs on the Device Home Page
70
Figure 17 - Device Homepage
70
Table 18 - Device Health Status
70
Using FDC for Various Device Operations
72
Table 19 - HART Transmitter Parameters
74
Table 22 - Monitoring Menu
74
Table 20 - Configuration Menu
76
Table 23 - Communication Module Diagnostics
76
Table 21 - Flow Calculation Setup
86
Table 38 - Configuration of Materials, Flowing Temperature and Thermal Expansion Coefficients
112
Table 24 - Meter Body (MB) Diagnostics
120
Table 25 - Temperature Module Diagnostics
122
Table 26 - Write Tx Install Date
124
Table 27 - Write TM Install Date
124
Table 28 - Config History
124
Table 29 - Fault History
124
Table 30 - Maintenance Menu
125
Table 31 -Device Status
129
Table 32 - Flow Units
132
Procedure to Enter the Transmitter Tag
133
Selecting Variable Units of Measurement
133
Table 33 - Tamper Reporting Logic Implementation with Write Protect
133
Selecting Pressure Units
135
Selecting Temperature Units
135
Selecting Flow Units
136
Setting PV URV, and LRV Range Values (for Differential Pressure Values)
136
Setting Range Values for Applied Pressure for DP
137
Setting URV, and LRV Range Values (for Static Pressure Values)
138
Setting Range Values for Applied Static Pressure
138
Setting URV, and LRV Range Values (for Temperature Values)
139
Setting Range Values for Applied Temperature
139
Entering URV, and LRV Range Values (for Flow Values)
140
Saving Device History
140
Exporting Device History Records to FDM
141
Exporting Device History Records to Documint
142
Custom Views
142
Offline Configuration
144
7 DE Calibration
147
Overview
147
Calibration Recommendations
147
Test Equipment Required for Calibration
147
DE Output Calibration
148
Output Calibration Preparation
148
Figure 18 - Output Calibration Test Connections
148
Output Calibration Using SCT3000
149
Figure 19 - de Analog Mode Scaling and Test Connections
149
Calibrating Range Using a Configuration Tool
151
Conditions for Input Calibration
151
Input Calibration Procedures Description
151
DE Input Calibration Procedure
152
DP Input Cal
152
Figure 20 - Input Calibration Connections
152
Correct DP Input at the Lower Range Value (LRV)
153
Correct DP Input at URV
155
AP Input Calibration
157
AP Input Cal LRV (Lower Range Value) Correct
157
AP Input Cal URV (Upper Range Value) Correct
158
Reset Corrects
158
Temperature Input Calibration
159
Process Temperature LRV (Lower Range Value) Correct
159
Process Temperature URV (Upper Range Value) Correct
160
Reset Corrects
160
HART Calibration
161
About this Section
161
About Calibration
161
Equipment Required
161
Analog Output Signal Calibration
162
Calibrating Range
163
Correcting the Lower Range Value (LRV) for Differential Pressure
163
Correcting the Upper Range Value (URV) for Differential Pressure
163
Figure 21 - Setup to Manually Set the PV LRV and URV
164
Resetting Calibration for Differential Pressure
165
Correcting the Lower Range Value (LRV) for Temperature
165
Correcting the Lower Range Value (URV) for Temperature
166
Resetting Calibration for Temperature
167
Calibration Records
167
Dual / Triple Calibration
168
HART Advanced Diagnostics
169
About this Section
169
Advanced Diagnostics
169
Table 34 - Viewing Advanced Diagnostics
169
10 Troubleshooting and Maintenance
170
Troubleshooting Using the SCT
170
Table 35 - Accessing SMV 800 Diagnostic Information Using the SCT
170
11 Using Dtms
171
Introduction
171
Components
171
Downloads
171
Procedure to Install and Run the DTM
171
SMV800 Online Parameterization
172
Configuration Menu
172
Monitoring Menu
173
Diagnostics Menu
173
Maintenance Menu
174
Advanced Flow Setup (for DTM Only)
175
Engineering Units
175
Table 36 - Unit Configuration
176
Flow Calculation Setup
178
Table 37 - Setup Flow Calculation
179
Fluid Data Screen
187
Table 39 - Fluid Data
188
Coefficients and Switches Screen
195
Table 40 - Coefficients and Switches
196
Table 41 - Simulate Process Variables
202
Table 42 - Viscosity Coefficients: Dependency to Algorithm Option
202
Table 43 - Density Coefficients: Dependency to Algorithm Option
203
Element Specific Properties Screen
204
Table 44 - Element Specific Properties
206
Figure 22 - Typical Volumetric Flow Range Setting Values
208
Figure 23 - Low Flow Cutoff Action
209
Saving the Current Online Configuration as Offline Dataset
210
SMV800 Offline Parameterization
211
Comparison of Configuration Options from DD Host Vs DTM
212
Table 45 - Flow Parameters
212
Flow Engineering Units Configuration for SMV800 HART and de
213
SMV800 HART Configuration Using Pactware
213
For Standard Flow Condition (Temperature: 15 °C, Pressure: 1.01325 Bara)
213
For Normal Flow Condition (Temperature: 0 °C, Pressure: 1.01325 Bara)
215
SMV800 de Configuration Using SCT3000
216
For Standard Flow Condition (Temperature: 15 °C, Pressure: 1.01325 Bara)
216
For Normal Flow Condition (Temperature: 0 °C, Pressure: 1.01325 Bara)
216
User Defined Custom Units Selection on SMV 800 de Model
217
Example Configuration of Flow for below Specification
219
Table 46 - Flow Configuration Parameters
219
Figure 24 - Engineering Unitstab
223
Figure 25- Flow Calculation Setup Tab
224
Figure 26 - Coeficients and Switches
224
Figure 27 - Simulation Tab
225
Figure 28 - Fluid Data
225
Figure 29 - Flow Calculation Setup
226
Figure 30- Summary Page
226
15 HART DD Binary File Format Compatibility Matrix
227
Table 48 - HART DD Binary File Format Compatibility Matrix
227
16 Security
228
How to Report a Security Vulnerability
228
17 Troubleshooting
229
Diagnostic Messages for de Transmitters
229
Table 49 - Critical Status Diagnostic Message Table
230
Table 50 - Non-Critical Status Diagnostic Message Table
233
Table 51 - Communication Status Message Table
239
Table 52 - Information Message Table
241
Table 53 - SFC Diagnostic Message Table
242
HART Diagnostic Messages
244
Table 53 - HART Critical Details
244
Table 54 - Non-Critical 1 Diagnostic Details
251
Table 55 - Non-Critical 2 Diagnostic Details
256
Table 56 - Non-Critical 3 Diagnostic Details
259
Table 57 - Non-Critical 4 Diagnostic Details
263
Table 58 - Extended Device Status Diagnostic Details
263
Flow Configuration Diagnostics, Messages and Values
264
Table 59 - Air through a Venturi Meter Configuration Example
288
Table 60 - Superheated Steam Using an Averaging Pitot Tube Configuration Example
289
Table 61 - Liquid Propane Configuration Example
292
Table 62 - Air Configuration Example
295
Table 63 - Superheated Steam Configuration Example
298
Glossary
301
Honeywell SMV800 User Manual (220 pages)
MultiVariable Transmitter Modbus Communication
Brand:
Honeywell
| Category:
Transmitter
| Size: 7.99 MB
Table of Contents
Table of Contents
10
1 Introduction
13
Overview
13
Features of the Transmitter
13
Tamper Functionality
13
Table 1-1: Features and Options
13
Advanced Diagnostics
14
Error Log
14
Configuration Change History
14
Physical Characteristics
14
Figure 1-1: SMV800 Major Assemblies
14
Functional Characteristics
15
SMV800 Transmitter Name Plate
15
Figure 1-2: Typical SMV800 Name Plate
15
2 Configuration
16
Software Installation and Setup
16
System Requirements
16
Hard Disk Space
16
Downloads
16
Installing
17
Getting Started
19
Launching the Configuration Process
21
Device Setup
23
Differential Pressure Configuration
28
Table 2-1: Pre-Programmed Engineering Units for DP
30
Static Pressure Configuration
31
Table 2-2: Pre-Programmed Engineering Units for SP
33
Flow Configuration
35
Table 2-3: Pre-Programmed Volumetric Flow Engineering Units for Flow
37
Table 2-4: Pre-Programmed Mass Flow Engineering Units for Flow
37
Figure 2-1: Typical Volumetric Flow Range Setting Values
38
Meterbody Temperature Config
40
Process Temperature Configuration
41
Table 2-5: Pre-Programmed Engineering Units for PT
43
Table 2-6: Sensor Types for Process Temperature Input
44
Figure 2-2: RTD Range Configuration
46
Figure 2-3: Current Range Settings
46
Table 2-7: Density Coefficients: Dependency to Algorithm Option
61
Using Custom Units for Flow Measurement
71
Meterbody Details
76
MODBUS COM Config
79
Maintenance
81
Device Security & Protection
81
Calibration & Correction Records
87
Review [Maintenance]
87
Advanced Diagnostic
88
Tracking
88
Error Log
93
Config History
94
Review
95
Monitoring
96
Faults
96
Process Variables
97
SMV 800 Modbus Host Menu Tree
98
Advanced Diagnotics Menu
104
Monitoring Menu
105
Offline Configuration
106
Compare Configuration Files
113
3 Communication
117
SMV800 Modbus Communication
117
Modbus Communication Overview
117
Physical Layer Requirements
117
Data Format
117
Baud Rate (Software Configurable)
118
Table 3-1: Exception Response Codes
118
Modbus Data Types
119
Modbus Function Codes
119
Table 3-2: Modbus Function Codes
119
Table 3-3: Configuration History
120
Registers for Process Variables
122
Table 3-4: Modbus Register for Process Variables
122
Floating Point Formats
123
Communications
123
Table 3-5: Floating Point Format
123
Table 3-6: Communication Statistics
123
Implementing Calibration
124
Diagnostics
125
Table 3-7: Transmitter Status Amd Diagnostic Registers
125
Transmitter Register Maps
140
Table 3-8: SMV800 Modbus Coils
140
Table 3-9: SMV800 Modbus Holding Registers
141
4 Operation and Maintenance
185
Calibration
185
Differential Pressure Sensor Calibration
186
Static Pressure Calibration
189
Process Temperature Sensor Calibration
192
Dual / Triple Calibration
196
Simulate Device Variables
197
5 Troubleshooting
198
Overview
198
Communications Troubleshooting
198
Device Not Visible on the Network
198
Alarms and Conditions
200
Below Table Shows All Alarms and Condition for SMV800 Modbus Device
200
6 Security
218
Security Guidelines
218
How to Report a Security Vulnerability
218
Honeywell SMV800 User Manual (93 pages)
Multivariable Transmitter
Brand:
Honeywell
| Category:
Transmitter
| Size: 3.22 MB
Table of Contents
Table of Contents
6
Introduction
10
Overview
10
Features and Options
10
Physical Characteristics
10
Table 1 - Features and Options
10
Figure 1 - SMV800 Major Assemblies
11
Figure 2 - Electronics Housing Components
11
Functional Characteristics
12
Table 2 - SMV800-Supported Primary Element
12
SMV800 Transmitter Name Plate
13
Safety Certification Information
13
Figure 3 -Typical SMV800 Name Plate
13
Transmitter Adjustments
14
Optional 3-Button Assembly
14
Table 3 - Available Display Characteristics
14
Universal Temperature Sensor Option Licensing
15
Flow and Totalizer Calculation Option Licensing (Only for Modbus)
15
Application Design
16
Overview
16
Safety
16
Accuracy
16
Diagnostic Messages
16
Table 4 - SMV800 Standard Diagnostics Messages - Critical
16
Table 5 - SMV800 Standard Diagnostics Messages - Noncritical
17
Table 6 - SMV800 Modbus Standard Diagnostics Messages - Critical
18
Table 7 - SMV800 Modbus Standard Diagnostics Messages - Noncritical/Additional Information
18
Safety Integrity Level (SIL)
20
Security Considerations
20
Installation and Startup
21
Installation Site Evaluation
21
Honeywell Smartline Configuration Tools
21
Display Installation Precautions
21
Mounting SMV800 Smartline Temperature Transmitters
22
Summary
22
Mounting Dimensions
22
Bracket Mounting Procedure
22
Figure 4 - Typical Bracket Mounted Installations
22
Figure 5 - Angle Mounting Bracket Secured to a Horizontal or Vertical Pipe
22
Leveling Transmitters with Small Absolute or Differential Pressure Spans
23
Figure 6 - Rotating the Electronics Housing
23
Figure 7 - Using Level to Mount Transmitter
23
Piping SMV800 Transmitter
24
Figure 8 - Typical Piping Arrangement Transmitter Location
24
Figure 9 - Transmitter Location above Tap for Gas Flow Measurement
24
General Piping Guidelines
25
Procedure to Install Flange Adapters
25
Figure 10 - Transmitter Location below the Tap for Liquid or Steam Flow Measurement
25
Figure 11 - HART and de Transmitter Operating Ranges
26
Conduit Entry Connectors, Plugs and Adapters
27
Procedures
27
Table 8 - Conduit Entry Connectors and Plugs
27
Table 9 - Conduit Adapters
27
Wiring a Transmitter
28
Overview
28
Figure 12-DE Single Input Wiring Diagram
28
Figure 13 - HART/ de Transmitter Operating Ranges
28
Supply Voltage Load Resistance for SMV HART/DE
29
Supply Voltage for SMV Modbus
29
Figure 14 - Transmitter Terminal Board and Grounding Screw
29
Wiring Variations
30
Input Sensor Wiring
30
RTD Connections
30
Figure 15 - Temperature Sensor Wiring Diagram
30
Figure 16 - RTD Connections
30
Loop Wiring Procedure for HART/DE Variants
31
Power Supply Wiring (Modbus) Procedure
31
SMV Modbus Half-Duplex Modbus (RS-485) Wiring Procedure
32
Figure 17 - Wiring Details for SMV Modbus Terminal Block
32
Table 10 - Wiring Details for SMV Modbus Terminal Block
32
SMV Modbus Transmitter Connection to a PC Based Modbus (RS-485) Host
33
Figure 18 - Transmitter Configuration Via Modbus (RS-485) Network Port
33
Digital System Integration Information
34
Lighting Protection
34
Supply Voltage Limiting Requirements
34
Process Sealing
34
Explosion Proof Conduit Seal
35
Trim the Transmitter
36
Procedure to Trim the Transmitter
36
Startup
37
Overview
37
Startup Tasks
37
Power-Up Sequence
37
Output Check Procedures
38
Constant Current Source Mode Procedure
38
Figure 19 - Current Loop Test Connections
38
Operation
40
Overview
40
Three Button Operation
40
Figure 20 - Three-Button Option
40
Table 11 - Three-Button Option Function
40
Menu Navigation
41
Data Entry
41
Table 12 - Three-Button Data Entry
41
Editing a Numeric Value
42
Selecting a New Setting from a List of Choices
42
The Display Menus
42
Table 13 - Display Main Menu Structure
42
Table 14 - Diagnostics Menu
44
Table 15 - Display Setup Menus
47
Table 16 - Calibration Menus
53
Table 17 - Device Setup Menus
55
Table 18- Device Setup
55
Table 19 - Pressure Setup Menus
57
Table 20 - Temperature Setup Menus
58
Table 21 - Flow Setup Menus
60
Table 22 - Totalizer Setup Menus
62
Table 23 - Information Menus
63
Selecting a New Setting from a List of Choices
64
Three Button Operation with no Display Installed
64
Zero Adjustment
64
Span Adjustment
64
Changing the Default Failsafe Direction
64
De and Analog Differences
65
Procedure to Establish Failsafe Operation
65
Figure 21 - Locating the Failsafe and Write Protect Jumpers HART/DE
65
Modbus AC Termination and Write Protect Jumper
66
Table 24 - HART and de Failsafe and Write Protect Jumpers
66
Figure 22 - Loading AC Termination Enable and Write Protector Jumper for Modbus (RS-485)
67
Table 25 - AC Termination and Write Protector Jumpers for Modbus
67
Monitoring the Displays
68
Displays
68
Figure 23 - Display Formats with the Process Variable
68
Table 26 - Displays with PV Format Display Indications
68
Button Operation During Monitoring
70
Table 27 - Flow Units
71
Maintenance
72
Overview
72
Preventive Maintenance Practices and Schedules
72
Inspecting Barrier Diaphragms
72
Figure 24 - Transmitter Head Assembly
72
Figure 25 - Head Bolt Tightening Sequence
73
Table 28 - Head Bolt Torque Values
73
Replacing Communication Module
74
Figure 26 - PWA Replacement
74
Replacing Meter Body
76
Figure 27 - Disassembly for Meter Body Replacement
76
Figure 28 - Hardware Location to Remove the Meter Assembly
76
Figure 29 - Meter Body Reassembly
77
Figure 30 - Head Bolt Tightening Sequence
77
Recycling and Disposal of Product
78
Calibration
79
Recommendations for Transmitter Calibration
79
Calibration Procedures
79
Dual/Triple Cal
79
Troubleshooting
80
Overview
80
Critical Diagnostics Screens
80
Figure 31 - Local Display Fault Diagnostics Conditions
80
Fault Conditions and Recommended Corrective Actions
81
Diagnostic Messages for De/Modbus Transmitters
81
Table 29 - Fault Conditions and Recommended Corrective Actions
81
Parts List
82
Overview
82
Table 30 - Summary List of Recommended Spare Parts
82
Figure 32 - Angle and Flat Brackets
83
Table 31 - Angel and Flat Brackets Parts (Refer to Figure 32)
83
Figure 33 - Electronic Housing, Display End
84
Table 32 - Transmitter Major Assemblies
84
Figure 34 - Electronic Housing, Terminal Block End
85
Table 33 - SMV800 Models - SMA810, SMA845 SMG870 & SMG890 (Refer to Figure 35)
86
Table 34 - Parts for SMV800 Models - SMA810, SMA845 & SMG870, SMG890 Transmitter Body
87
Figure 35 - SMV800 Models SMA810, SMA845, SMG870, SMG890
88
Security
89
How to Report a Security Vulnerability
89
Glossary
90
Honeywell SMV800 Quick Start Installation Manual (24 pages)
SmartLine Multivariable Transmitter
Brand:
Honeywell
| Category:
Transmitter
| Size: 0.55 MB
Table of Contents
Table of Contents
2
Installation
3
Figure 1 - Electronic Housing Components
3
Mounting the Transmitter
4
Figure 2: Mounting Brackets
4
Bracket Mounting
5
Figure 3: Angle Mounting Bracket
5
Mounting Bracket
5
Figure 4: Rotating Transmitter Housing
6
Rotating Transmitter Housing
6
Figure 5: Using Level to Mount Transmitter
7
Leveling Transmitters with Small Absolute or Differential Pressure Spans
7
Conduit Entry Connectors, Plugs and Adapters
8
Table 1 - Conduit Entry Connectors and Plugs
8
Table 2 - Conduit Adapters
9
Figure 6: Electronic Housing Conduit Entries
9
Wiring Connections and Power up
10
Figure 7: HART/DE Transmitter Operating Ranges
10
Figure 8: Transmitter Terminal Board and Grounding Screw
11
Wiring Variations
12
Figure 9: Thermocouple Connections
13
Input Sensor Wiring
13
Figure 10: RTD Connections
14
Explosion-Proof Conduit Seal
15
Trim the Transmitter
16
Procedure to Trim the Transmitter
16
Set the Jumpers for HART/DE
17
Setting Failsafe Direction and Write Protect Jumpers
17
Figure 11: Jumper Location HART
18
Figure 12: Jumper Settings HART
18
Configuration Guide
19
Table 3 - Advanced Display Configuration
19
Honeywell SMV800 Quick Start Installation Manual (12 pages)
SmartLine Multivariable Transmitter
Brand:
Honeywell
| Category:
Transmitter
| Size: 2.25 MB
Table of Contents
Table of Contents
1
Table of Contents Installation
1
Mounting the Transmitter
2
Bracket Mounting
2
Mounting Bracket
2
Rotating Transmitter Housing
2
Leveling Transmitters with Small Absolute or Differential Pressure Spans
2
Conduit Entry Connectors, Plugs and Adapters
3
Table 1: Conduit Entry Connectors and Plugs
3
Table 2 - Conduit Adapters
3
Input Sensor Wiring
4
Power Supply Wiring (Modbus) Procedure
4
RTD Connections
4
Table 3: Wiring Details for SMV Modbus Terminal Block
4
Wiring Variations
4
SMV Modbus Half-Duplex Modbus (RS-485) Wiring Procedure
5
SMV Modbus Transmitter Connection to a PC Based Modbus (RS-485) Host
5
Wiring Connections and Power up
3
Explosion-Proof Conduit Seal
5
Trim the Transmitter
5
Procedure to Trim the Transmitter
5
Setting Failsafe Direction and Write Protect Jumpers
6
Table 4: AC Termination and Write Protect Jumpers for Modbus
6
Configuration Guide
7
Table 5: Advanced Display Configuration
7
Appendix A. PRODUCT CERTIFICATIONS
8
Related Products
Honeywell SMV 3000
Honeywell SmartLine
Honeywell SmartEye Transmitter
Honeywell SmartLine ST 800
Honeywell STD110
Honeywell STDW810
Honeywell STDW830
Honeywell STGW770
Honeywell Midas S2
Honeywell Smoke Alarm
Honeywell Categories
Thermostat
Controller
Control Unit
Security Camera
Accessories
More Honeywell Manuals