Honeywell FS24X Quad Band Triple IR HART MODULE User Manual
- June 5, 2024
- Honeywell
Table of Contents
- INTRODUCTION
- DEVICE IDENTIFICATION
- PRODUCT OVERVIEW
- PRODUCT INTERFACES
- DEVICE VARIABLES
- DYNAMIC VARIABLES
- STATUS INFORMATION
- UNIVERSAL COMMANDS
- COMMON-PRACTICE COMMANDS
- DEVICE-SPECIFIC COMMANDS
- TABLES
- PERFORMANCE
- 701, Kolon Science Valley (I)
- References
- Read User Manual Online (PDF format)
- Download This Manual (PDF format)
USER MANUAL
FS24X™ HART MODULE
FS24X QuadBand Triple IR™ HART MODULE
Read and understand this manual before installing or operating equipment
No part of this document may be copied or reproduced without the express
written permission of Honeywell.
This manual is subject to change without notice.
FSX™ Fire and Flame Detectors Hart Module (FSX-A014R)
While this information is presented in good faith and believed to be accurate,
Honeywell disclaims the implied warranties of merchantability and fitness for
a particular purpose and makes no express warranties except as may be stated
in its written agreement with and for its customers.
In no event is Honeywell liable to anyone for any indirect, special or
consequential damages. The information and specifications in this document are
subject to change without notice.
ACCTTL, ALERT-1, ALARM-2, ALERT-1: ALARM 2, ALERT-1: ALARM-2, ATAG, Clean Room Sentry, COP-i, Complete Optical Path Integrity, CM1, CM1-A, DartLogic, FireLogic, Fire Signature Analysis, FireBusI, FireBusII, FirePic, FirePicII, FirePicIII, FirePix, FirePicture, FSC, Fire Sentry Corporation, Fire Sentry Corp., FSX, All FSX Nomenclature Variations (such as: FS2, FS2X, FS3, FS3X, FS4, FS4X, FS5, FS5X, FS6, FS6X, FS7, FS7X, FS8, FS8X, FS9, FS9X, FS10X, FS10X, FS11, FS11X, FS12, FS12X, FS14, FS14X, FS15, FS15X, FS16, FS16X, FS17, FS17X FS18, FS18X, FS19, FS19X, FS20X, FS24X, FS24XN, FS26, FS26X, FS26XN), FS7-2173-2RP, FS System 7, FS System 10, FS7-2173, FS7-2173-RP, FS2000, FS System 2000, High Speed Flame & Surveillance Detector, MultiSpectrum QuadBand Triple IR, Multi-Spectrum TriBand, Multi-Spectrum Tri-Band, Near Band Infrared, Near Band IR, NearBand IR, QuadBand IR, Room Sentry, RS, RS2, SM2, SM3, SS, SS2, SS2X, SS2-A, SS3, SS3-A, SS3X, SS4, SS4-A, SS4X, SnapShot, SLR- BIT, SuperBus, SuperSentry, System 2000, Tri-Mode Plot, QuadBand Triple IR Plus, TriBand, Tri-Band, “FS & FSC triangle logo’s”, WBIR, Wide Band Infrared, WideBand IR, Wide Band IR are registered trademarks of Honeywell International Inc. Other brands or product names are trademarks of their respective owners.
INTRODUCTION
1.1 Scope
The Fire Sentry FS24X Flame Detector with HART® complies with HART® Protocol
Revision 7.0. This document specifies device features and HART® protocol
implementation details. The functionality of this Field Device is described
sufficiently to allow its proper application in a process and its complete
support in HART-capable Host Applications.
1.2 Purpose
This specification is designed to complement other documentation (e.g., the
FS24X Installation Guide and Operating Manual) by providing a complete,
unambiguous description of this Field Device from a HART communication
perspective.
1.3 Who should use this document?
The specification is designed to be a technical reference for HART®-capable
host application developers, system integrators, and knowledgeable end-users.
It also provides functional specifications used during Field Device
development, maintenance, and testing. This document assumes the reader is
familiar with HART® Protocol requirements and terminology.
1.4 Abbreviations and definitions
IR | Infrared |
---|---|
PV | Primary Variable |
EEPROM | Electrically-Erasable Read-Only Memory |
ROM | Read-Only Memory |
1.5 References
– HART Smart Communications Protocol Specification. HCF_SPEC-12. Available
from the HCF.
– FS24X Installation Guide and Operating Manual, Document 6178-001. Available
from Honeywell Analytics.
DEVICE IDENTIFICATION
Manufacturer Name: | Honeywell Analytics |
---|---|
Manufacture ID Code: | 210 (D2 Hex) |
HART Protocol Revision | 7.0 |
Number of Device Variables | None |
Physical Layers Supported | FSK |
Physical Device Category | Sensor and Transmitter |
Model Name(s): | FS24X |
Device Type Code: | 130 (82 Hex) |
Device Revision: | 1 |
The FS24X HART® module is identified by a serial number that begins with
“24X-“. This serial number will be visible on the module circuit card, along
with a bar code containing the same information.
The FS24X is designed to detect fire in a hazardous area. This device should
be mounted so as to avoid areas that contain non-fire radiant energy sources
(such as radiant eaters, high-intensity lamps, etc.) in close proximity to the
detector’s field of view. FS24X detectors should be mounted so that they look
downward with a minimum twenty degrees (20°) angle. Avoid mounting the
detectors in areas where temperatures are outside the specified operating
temperature range (-40°C to +85°C). Refer to the FS24X manual (SECTION 2:
INSTALLATION) for mounting instructions.
PRODUCT OVERVIEW
The FS24X is a Multi-Spectrum Flame Detector. A HART® communication module is required for HART® communication.
PRODUCT INTERFACES
4.1 Process Interface
4.1.1 Sensor Input Channels
Fire Sentry multi-spectrum and multi-spectral infrared Flame Detectors are
sophisticated, state of the art, electro-optical digital radiant energy
transducers that sense Wideband Infrared radiant the energy emitted by
fire’s combustion processes that include molecular emissions and hot
particulate blackbody emissions. Additionally, the FS24X Detectors sense the
specific WideBand 4.3 IR “Triple IR” region from approximately 3 to 5 microns.
FS24X Detectors also utilize additional spectral regions, the Visible Band and
Near Band Infrared wavelengths, to aid in discrimination against non-fire
false alarm sources.
4.2 Host interface
4.2.1 Analog Output 1: Loop Current
Loop current is the only output from this transmitter, representing the
presence of flame in the range of the instrument, as well as fault status.
This output corresponds to the Primary Variable. Refer to section 4.3.3 for
connection details.
- 4.3 Local Interfaces, Jumpers, and Switches
4.3.1 Local Controls and Displays
This device has no external local controls.
The indication of a detected malfunction is shown by reducing the loop current output to 1 mA.
The FS24X Flame Detector uses three (3) separate, bright LEDs to indicate the Detector’s status. The Blue or Green LED blinks (flashes) once every ten (10) seconds to indicate a Normal, safe operational condition (i.e. no Faults and no Alarms). The Blue or Green LED is OFF when no external 24 VDC input power is applied to the Detector. the Red LED turns ON when a fire is detected. The Yellow LED blinks (flashes) when the window lens is dirty. The dirty-lens condition also results in a loop current of 2 ma. For all other Fault conditions, the Yellow LED will turn ON.
4.3.2 Internal Jumpers And Switches
There are no jumpers or switches on the HART® module. Refer to the FS24X
Installation Manual for information relating to switching selections on the
detector. Write Protection Not Supported.
4.3.3 Connection Summary
The diagrams below provide connection detail. The first shows how the FS24X
Flame Detector plus the HART module connects to the outside world. The second
diagram shows how the detector and the module mate together.
CAUTION
RISK OF PRODUCT DAMAGE
- Follow static protection procedures while handling the connectors and the wiring of the Module puck to the detector.
- Use a wrist strap connected to the earth’s ground.
DEVICE VARIABLES
This Field Device does not expose any Device Variables.
DYNAMIC VARIABLES
Only one Dynamic Variable is implemented.
| Meaning| Units
---|---|---
PV| Loop Current| mA
| |
STATUS INFORMATION
7.1 Device Status
Bit 7 (“Device Malfunction”) is set whenever the device reports any fault.
Refer to the user manual for a description of fault conditions.
Bit 5 (“Cold start”) is set whenever the device resets or first powers up.
Bit 4 (“More Status Available”) is set whenever any failure is detected or
changes in operating mode. Command #48 gives further detail. (See section
7.3.)
Bit 3 (“Analog channel fixed”) is set whenever the device into forced current
or inhibitor multi-drop.
7.2 Extended Device Status
The Field Device cannot predict, in advance, when the maintenance will be
required. “Device Variable Alert” is set when the PV is not indicating normal
conditions, i.e. when an instrument detects the presence of a flame.
7.3 Additional Device Status (Command #48)
Command #48 returns nine bytes of data, with status information available in
bytes #6 and #8, as indicated in the following table:
Byte | Bit | Meaning | Condition |
---|---|---|---|
0 | 0 to 7 | Not used | |
1 | 0 to 7 | Not used | |
2 | 0 to 7 | Not used | |
3 | 0 to 7 | Not used | |
4 | 0 to 7 | Not used | |
5 | 0 to 7 | Not used | |
6 | 0 | Detector Fault | Lid off or dirty, temperature or voltage out of range, |
or internal failure
1| Detector Alarm| Flame detected
2| Not used|
3| Not used|
4| Not used|
5| Not used|
6| Not used|
7| Not used|
7| 0 to 7| Not used|
8| 0| Not used|
1| Not used|
2| Not used|
3| Not used|
4| Power Supply Conditions Out Of Range| Voltage fault
5| Not used|
6| Not used|
7| Not used|
“Not used” bits are always set to 0. In each case, bit #0 is the low-order bit.
UNIVERSAL COMMANDS
Command #3 returns PV, units, and Loop Current. The first (PV) and the last
(Loop Current) variables are the same.
Command #14 contains the serial number of the device (3 bytes), followed by
measurement units (1 byte) and 3 floating-point variables for max, min, and
span loop current in mA.
COMMON-PRACTICE COMMANDS
9.1 Supported Commands
The following common-practice commands are implemented:
38 Reset “Configuration Changed” Flag
48 Read Additional Device Status
Command #48 returns 2 bytes of data.
9.2 Burst Mode
This Field Device does not support Burst Mode.
9.3 Catch Device Variable
This Field Device does not support the Catch Device Variable.
DEVICE-SPECIFIC COMMANDS
The Field Device does not support any device-specific commands.
TABLES
11.1 Engineering Unit Type Codes
Code | Description | Note |
---|---|---|
39 | milliamperes | Electrostatic Unit of Current |
11.2 Loop Current Operating Modes
Mode| Description| Loop Current in mA (Point to Point )| Loop Current in mA
(Multi-drop)
---|---|---|---
0| Healthy| 4mA| 4mA
1| Optical Fault| 2mA| 4mA
2| Non-Optical Fault| 1mA| 4mA
3| Alarm| 20mA| 4mA
PERFORMANCE
12.1 Sampling Rates
Typical sampling rates are shown in the following table.
Primary detector sensor sample | 60 per second |
---|---|
PV digital value calculation | 1 per second |
Analog output update | 1 per second |
12.2 Power-Up
During power-up initialization, the device will not respond to HART® commands,
and the analog output is set at 4.0mA.
12.3 Self-Test
The FS24X executes a self-test sequence every three seconds. All-optical
sensor channels and the related processing of sensor data are evaluated to
ensure that analog circuits, processors, and memory are functional.
Depending on the particular function, tests are repeated a number of times to
confirm device status prior to declaring a fault. In the case of the optical
self-test, which evaluates the optical system by flashing an IR LED and
monitoring the reflection from the housing grill, a fault is not declared
until a total of 180 consecutive test attempts have failed. This takes a
total of nine minutes to complete. Additional self-tests are conducted on a
continuing basis to ensure the continuity of relay coils.
The the following power-up or reset, the analog output is set to 4.0mA and the
device will not respond to HART® commands. During the self-test, the analog
output is held at its last value, and the device may respond normally to HART®
commands. Continuous self-testing is part of the normal device operation.
12.4 Command Response Times
Approximate command response times are listed in the following table:
Minimum | 20ms |
---|---|
Typical | 50ms |
Maximum | 100ms |
12.5 Busy and Delayed-Response
The transmitter may respond with a “busy” status if a further command is
received while self-the-test is underway.
Delayed response is not used.
12.6 Long Messages
The largest data field used is in the response to Command 21: 34 bytes
including the two status bytes.
12.7 Non-Volatile Memory
EEPROM is used to hold the device’s configuration parameters. New data is
written to this memory immediately on execution of a write command.
12.8 Modes
Fixed current mode is implemented, using Loop current mode (Enable – Point to
Point /Disable- Multi-drop). This mode is not cleared by a power loss or
reset.
12.9 Write Protection
Write-protection is not supported.
12.10 Damping
User controllable Damping is not supported.
ANNEX A. CAPABILITY CHECKLIST
Manufacturer, model and revision | Honeywell Analytics, FS24X , rev. 1 |
---|---|
Device type | Detector and Transmitter |
HART revision | 7.0 |
Device Description available | No |
Number and type of sensors | 1 (one external) |
Number and type of actuators | 0 |
Number and type of host side signals | 1: 4 – 20mA analog |
Number of Device Variables | 0 |
Number of Dynamic Variables | 1 |
Mappable Dynamic Variables? | No |
Number of common-practice commands | 0 |
Number of device-specific commands | 0 |
Bits of additional device status | 8 |
Alternative operating modes? | No |
Burst mode? | No |
Write-protection? | No |
ANNEX B. DEFAULT CONFIGURATION
Parameter | Default value |
---|---|
Lower Range Value | 1 |
Upper Range Value | 20 |
PV Units | mA |
Sensor type | Analytical |
Number of wires | 3 |
Damping time constant | – |
Fault-indication jumper | Not Supported |
Write-protect jumper | Not Supported |
Number of response preambles | 5 |
Contact Honeywell
Europe, Middle East, Africa, India
Life Safety Distribution AG
Javastrasse 2
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Switzerland
Tel: +41 (0)44 943 4300
Fax: +41 (0)44 943 439
India Tel: +91 124 4752700
gasdetection@honeywell.com
Americas
Honeywell Analytics Inc.
405 Barclay Blvd.
Lincolnshire, IL 60069
USA
Tel: +1 847 955 8200
Toll free: +1 800 538 0363
Fax: +1 847 955 8210
detectgas@honeywell.com
Asia Pacific
Honeywell Analytics Asia Pacific
701, Kolon Science Valley (I)
43 Digital-ro 34-Gil Guro-Gu
Seoul, 152-729
Korea
Tel: +82 (0)2 6909 0300
Fax: +82 (0)2 2025 0328
analytics.ap@honeywell.com
Technical Services
EMAIL: HAexpert@honeywell.com
US: ha.us.service@honeywell.com
AP: ha.ap.service@honeywell.com
sps.honeywell.com
Please Note:
While every effort has been made to ensure accuracy in this publication, no
responsibility can be accepted for errors or omissions. Data may change, as
well as legislation, and you are strongly advised to obtain copies of the most
recently issued regulations, standards, and guidelines. This publication is
not intended to form the basis of a contract.
Revision 14 Dec.2021
Manual Part Number 6349-001 EMEAI
© 2021 Honeywell International Inc.
References
Read User Manual Online (PDF format)
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